https://www.designingbuildings.co.uk/w/index.php?feed=atom&target=Hitechcaddservices&title=Special%3AContributions%2FHitechcaddservicesDesigning Buildings - User contributions [en]2026-04-20T09:15:41ZFrom Designing BuildingsMediaWiki 1.17.4https://www.designingbuildings.co.uk/wiki/LOD:_Linguistics_Needs_of_the_Construction_IndustryLOD: Linguistics Needs of the Construction Industry2018-12-04T12:46:41Z<p>Hitechcaddservices: </p>
<hr />
<div>[[File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg|link=File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg]]<br />
<br />
In the era of digital designing and BIM platforms, we, construction industry professionals, work in 3D which is closer to the real world. But it also means we are more exposed to risks and challenges even while designing. When a design consultant hands off the model to someone else, let’s assume - a contractor or a structural engineer, they might have a different understanding. The later has a different understanding of what is done and what is going to be a challenge during construction.<br />
<br />
Large-scale construction companies face big-time challenges in communicating designs, obstacles, intents, and the gravity of a piece of information and much more across the divisions. They have a hard time getting their documents to flow amongst their partnering organizations, vendors, offshore workers, and others working remotely to propagate information that is uniform. And hence the construction industry needs a better language to communicate more than just 3D modeling and BIM platforms - something that we commonly refer to as [https://www.hitechcaddservices.com/bim/support/level-of-development-lod/ Level of Development (LOD)].<br />
<br />
Issues with 3D BIM and need of new language – LOD<br />
<br />
The major concern of working with a 3D BIM model of a building is that you cannot always trust it, at least not in every aspect. The difference between precision - accuracy and 3D parametric modeling is they have a history of not going hand in hand. The structural engineer could have modeled the column with significant decimal precisions and yet, on-site, the reality is completely different. The same column could be lying three feet away from the position in the model. This is because the modeling environment is never in synchronization with the reality.<br />
<br />
LOD resolves this by introducing the designer and the evaluator of any 3D BIM model can deploy to maintain the uniformity of the information being passed on. In a way, LOD scores each element of the BIM model digitally and sees the data maturity.<br />
<br />
See, the core issue with a simple 3D BIM modeling without LOD specifications is that there is no connection between the model and reality. This makes the model deviate from the reality when taken onsite. LOD repairs this issue. It gives the information about the digital maturity of each element and helps to develop the model in accordance. It is a trigger mechanism which starts the designer’s work only when the critical components reach a certain desired level of maturity.<br />
<br />
LOD: An introduction<br />
<br />
LOD standards were laid by AIA in 2008, from LOD 100 to LOD 500 to define the gravity of design detailing in the BIM model for each component. Additionally, the BIM forum also contributed to interpreting those levels for building products manufacturers and fabricators, especially, plumbing, electrical, foundation, roofs etc. to collaborate better.<br />
<br />
Owing to such an initiative, there exist six explicit levels of development as enlisted:<br />
<br />
* LOD 100 - Elements are a generic representation, giving the viewer a basic idea of existence and no idea about size, exact shape or orientation<br />
* LOD 200 - A representation of a rough idea of elements’ size, location in the facility etc. yet with much approximation<br />
* LOD 300 - This shows the specific geometric size of the element and orientation, location, and quantity used across the facility<br />
* LOD 350 - It is a revision of LOD 300 depicting precise information about how the component will be connected to the nearby elements. This is usually the minimum requirement of every construction firm<br />
* LOD 400 - Sufficient information to fabricate the component with individual holes and weld sizes<br />
* LOD 500 - This is the fully developed design and shows the operational geometry of the component, the stage of installation of the component with duly verified information like manufacturer details, dates, part, and model number etc.<br />
<br />
Colloquialism of LOD in the construction industry<br />
<br />
The biggest advantage of LOD is it communicates the design details on its own. This means phone calls and emails are avoided saving significant time. It also means, there are no conversation gaps and a standard is maintained in transmitting the information from designer to contractor, from contractor to manufacturer, from manufacturer to the installer and so and so forth across the value chain to the way through facility management teams.<br />
<br />
However, just having a new language isn’t enough; it needs to be spoken and understood. As a result, there are [https://www.hitechcaddservices.com/bim/ outsourcing BIM experts] who help construction firms, contractors and consulting firms adopt BIM though BIM implementation and BIM Execution Plans (BEPs).<br />
<br />
At Hi-Tech CADD Services, we are the leaders with 25+ years of concrete experience of handling offshore projects equipped with Autodesk Revit and other industry-leading BIM platforms to help the construction industry grow.<br />
<br />
Contact us to our BIM consultants for more queries on LOD and BIM implementation.<br />
<br />
[[Category:Conservation]] [[Category:Construction_management]] [[Category:Construction_techniques]] [[Category:Design]] [[Category:Roles_/_services]]</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/LOD:_Linguistics_Needs_of_the_Construction_IndustryLOD: Linguistics Needs of the Construction Industry2018-12-04T12:43:35Z<p>Hitechcaddservices: </p>
<hr />
<div>[[File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg|link=File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg]]<br />
<br />
In the era of digital designing and BIM platforms, we, construction industry professionals, work in 3D which is closer to the real world. But it also means we are more exposed to risks and challenges even while designing. When a design consultant hands off the model to someone else, let’s assume - a contractor or a structural engineer, they might have a different understanding. The later has a different understanding of what is done and what is going to be a challenge during construction.<br />
<br />
Large-scale construction companies face big-time challenges in communicating designs, obstacles, intents, and the gravity of a piece of information and much more across the divisions. They have a hard time getting their documents to flow amongst their partnering organizations, vendors, offshore workers, and others working remotely to propagate information that is uniform. And hence the construction industry needs a better language to communicate more than just 3D modeling and BIM platforms - something that we commonly refer to as [https://www.hitechcaddservices.com/bim/support/level-of-development-lod/ Level of Development (LOD)].<br />
<br />
Issues with 3D BIM and need of new language – LOD<br />
<br />
The major concern of working with a 3D BIM model of a building is that you cannot always trust it, at least not in every aspect. The difference between precision - accuracy and 3D parametric modeling is they have a history of not going hand in hand. The structural engineer could have modeled the column with significant decimal precisions and yet, on-site, the reality is completely different. The same column could be lying three feet away from the position in the model. This is because the modeling environment is never in synchronization with the reality.<br />
<br />
LOD resolves this by introducing the designer and the evaluator of any 3D BIM model can deploy to maintain the uniformity of the information being passed on. In a way, LOD scores each element of the BIM model digitally and sees the data maturity.<br />
<br />
See, the core issue with a simple 3D BIM modeling without LOD specifications is that there is no connection between the model and reality. This makes the model deviate from the reality when taken onsite. LOD repairs this issue. It gives the information about the digital maturity of each element and helps to develop the model in accordance. It is a trigger mechanism which starts the designer’s work only when the critical components reach a certain desired level of maturity.<br />
<br />
LOD: An introduction<br />
<br />
LOD standards were laid by AIA in 2008, from LOD 100 to LOD 500 to define the gravity of design detailing in the BIM model for each component. Additionally, the BIM forum also contributed to interpreting those levels for building products manufacturers and fabricators, especially, plumbing, electrical, foundation, roofs etc. to collaborate better.<br />
<br />
Owing to such an initiative, there exist six explicit levels of development as enlisted:<br />
<br />
* LOD 100 - Elements are a generic representation, giving the viewer a basic idea of existence and no idea about size, exact shape or orientation<br />
* LOD 200 - A representation of a rough idea of elements’ size, location in the facility etc. yet with much approximation<br />
* LOD 300 - This shows the specific geometric size of the element and orientation, location, and quantity used across the facility<br />
* LOD 350 - It is a revision of LOD 300 depicting precise information about how the component will be connected to the nearby elements. This is usually the minimum requirement of every construction firm<br />
* LOD 400 - Sufficient information to fabricate the component with individual holes and weld sizes<br />
* LOD 500 - This is the fully developed design and shows the operational geometry of the component, the stage of installation of the component with duly verified information like manufacturer details, dates, part, and model number etc.<br />
<br />
Colloquialism of LOD in the construction industry<br />
<br />
The biggest advantage of LOD is it communicates the design details on its own. This means phone calls and emails are avoided saving significant time. It also means, there are no conversation gaps and a standard is maintained in transmitting the information from designer to contractor, from contractor to manufacturer, from manufacturer to the installer and so and so forth across the value chain to the way through facility management teams.<br />
<br />
However, just having a new language isn’t enough; it needs to be spoken and understood. As a result, there are [https://www.hitechcaddservices.com/bim/ outsourcing BIM experts] who help construction firms, contractors and consulting firms adopt BIM though BIM implementation and BIM Execution Plans (BEPs).<br />
<br />
At Hi-Tech CADD Services, we are the leaders with 25+ years of concrete experience of handling offshore projects equipped with Autodesk Revit and other industry-leading BIM platforms to help the construction industry grow.<br />
<br />
[https://www.hitechcaddservices.com/contact-us/ Contact us] to our BIM consultants for more queries on LOD and BIM implementation.<br />
<br />
[[Category:Conservation]] [[Category:Construction_management]] [[Category:Construction_techniques]] [[Category:Design]] [[Category:Roles_/_services]]</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/LOD:_Linguistics_Needs_of_the_Construction_IndustryLOD: Linguistics Needs of the Construction Industry2018-12-04T12:42:16Z<p>Hitechcaddservices: Protected "LOD: Linguistics Needs of the Construction Industry" ([edit=author] (indefinite) [move=author] (indefinite))</p>
<hr />
<div>[[File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg|link=File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg]]<br />
<br />
In the era of digital designing and BIM platforms, we, construction industry professionals, work in 3D which is closer to the real world. But it also means we are more exposed to risks and challenges even while designing. When a design consultant hands off the model to someone else, let’s assume - a contractor or a structural engineer, they might have a different understanding. The later has a different understanding of what is done and what is going to be a challenge during construction.<br />
<br />
Large-scale construction companies face big-time challenges in communicating designs, obstacles, intents, and the gravity of a piece of information and much more across the divisions. They have a hard time getting their documents to flow amongst their partnering organizations, vendors, offshore workers, and others working remotely to propagate information that is uniform. And hence the construction industry needs a better language to communicate more than just 3D modeling and BIM platforms - something that we commonly refer to as [https://www.hitechcaddservices.com/bim/support/level-of-development-lod/ Level of Development (LOD)].<br />
<br />
Issues with 3D BIM and need of new language – LOD<br />
<br />
The major concern of working with a 3D BIM model of a building is that you cannot always trust it, at least not in every aspect. The difference between precision - accuracy and 3D parametric modeling is they have a history of not going hand in hand. The structural engineer could have modeled the column with significant decimal precisions and yet, on-site, the reality is completely different. The same column could be lying three feet away from the position in the model. This is because the modeling environment is never in synchronization with the reality.<br />
<br />
LOD resolves this by introducing the designer and the evaluator of any 3D BIM model can deploy to maintain the uniformity of the information being passed on. In a way, LOD scores each element of the BIM model digitally and sees the data maturity.<br />
<br />
See, the core issue with a simple 3D BIM modeling without LOD specifications is that there is no connection between the model and reality. This makes the model deviate from the reality when taken onsite. LOD repairs this issue. It gives the information about the digital maturity of each element and helps to develop the model in accordance. It is a trigger mechanism which starts the designer’s work only when the critical components reach a certain desired level of maturity.<br />
<br />
LOD: An introduction<br />
<br />
LOD standards were laid by AIA in 2008, from LOD 100 to LOD 500 to define the gravity of design detailing in the BIM model for each component. Additionally, the BIM forum also contributed to interpreting those levels for building products manufacturers and fabricators, especially, plumbing, electrical, foundation, roofs etc. to collaborate better.<br />
<br />
Owing to such an initiative, there exist six explicit levels of development as enlisted:<br />
<br />
* LOD 100 - Elements are a generic representation, giving the viewer a basic idea of existence and no idea about size, exact shape or orientation<br />
* LOD 200 - A representation of a rough idea of elements’ size, location in the facility etc. yet with much approximation<br />
* LOD 300 - This shows the specific geometric size of the element and orientation, location, and quantity used across the facility<br />
* LOD 350 - It is a revision of LOD 300 depicting precise information about how the component will be connected to the nearby elements. This is usually the minimum requirement of every construction firm<br />
* LOD 400 - Sufficient information to fabricate the component with individual holes and weld sizes<br />
* LOD 500 - This is the fully developed design and shows the operational geometry of the component, the stage of installation of the component with duly verified information like manufacturer details, dates, part, and model number etc.<br />
<br />
Colloquialism of LOD in the construction industry<br />
<br />
The biggest advantage of LOD is it communicates the design details on its own. This means phone calls and emails are avoided saving significant time. It also means, there are no conversation gaps and a standard is maintained in transmitting the information from designer to contractor, from contractor to manufacturer, from manufacturer to the installer and so and so forth across the value chain to the way through facility management teams.<br />
<br />
However, just having a new language isn’t enough; it needs to be spoken and understood. As a result, there are [https://www.hitechcaddservices.com/bim/ outsourcing BIM experts] who help construction firms, contractors and consulting firms adopt BIM though BIM implementation and BIM Execution Plans (BEPs).<br />
<br />
At Hi-Tech CADD Services, we are the leaders with 25+ years of concrete experience of handling offshore projects equipped with Autodesk Revit and other industry-leading BIM platforms to help the construction industry grow.<br />
<br />
[https://www.hitechcaddservices.com/contact-us/ Contact us] to our BIM consultants for more queries on LOD and BIM implementation.<br />
<br />
[[Category:Construction_management]] [[Category:Construction_techniques]] [[Category:Design]] [[Category:Roles_/_services]]</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/LOD:_Linguistics_Needs_of_the_Construction_IndustryLOD: Linguistics Needs of the Construction Industry2018-12-04T12:38:21Z<p>Hitechcaddservices: </p>
<hr />
<div>[[File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg|link=File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpg]]<br />
<br />
In the era of digital designing and BIM platforms, we, construction industry professionals, work in 3D which is closer to the real world. But it also means we are more exposed to risks and challenges even while designing. When a design consultant hands off the model to someone else, let’s assume - a contractor or a structural engineer, they might have a different understanding. The later has a different understanding of what is done and what is going to be a challenge during construction.<br />
<br />
Large-scale construction companies face big-time challenges in communicating designs, obstacles, intents, and the gravity of a piece of information and much more across the divisions. They have a hard time getting their documents to flow amongst their partnering organizations, vendors, offshore workers, and others working remotely to propagate information that is uniform. And hence the construction industry needs a better language to communicate more than just 3D modeling and BIM platforms - something that we commonly refer to as [https://www.hitechcaddservices.com/bim/support/level-of-development-lod/ Level of Development (LOD)].<br />
<br />
Issues with 3D BIM and need of new language – LOD<br />
<br />
The major concern of working with a 3D BIM model of a building is that you cannot always trust it, at least not in every aspect. The difference between precision - accuracy and 3D parametric modeling is they have a history of not going hand in hand. The structural engineer could have modeled the column with significant decimal precisions and yet, on-site, the reality is completely different. The same column could be lying three feet away from the position in the model. This is because the modeling environment is never in synchronization with the reality.<br />
<br />
LOD resolves this by introducing the designer and the evaluator of any 3D BIM model can deploy to maintain the uniformity of the information being passed on. In a way, LOD scores each element of the BIM model digitally and sees the data maturity.<br />
<br />
See, the core issue with a simple 3D BIM modeling without LOD specifications is that there is no connection between the model and reality. This makes the model deviate from the reality when taken onsite. LOD repairs this issue. It gives the information about the digital maturity of each element and helps to develop the model in accordance. It is a trigger mechanism which starts the designer’s work only when the critical components reach a certain desired level of maturity.<br />
<br />
LOD: An introduction<br />
<br />
LOD standards were laid by AIA in 2008, from LOD 100 to LOD 500 to define the gravity of design detailing in the BIM model for each component. Additionally, the BIM forum also contributed to interpreting those levels for building products manufacturers and fabricators, especially, plumbing, electrical, foundation, roofs etc. to collaborate better.<br />
<br />
Owing to such an initiative, there exist six explicit levels of development as enlisted:<br />
<br />
* LOD 100 - Elements are a generic representation, giving the viewer a basic idea of existence and no idea about size, exact shape or orientation<br />
* LOD 200 - A representation of a rough idea of elements’ size, location in the facility etc. yet with much approximation<br />
* LOD 300 - This shows the specific geometric size of the element and orientation, location, and quantity used across the facility<br />
* LOD 350 - It is a revision of LOD 300 depicting precise information about how the component will be connected to the nearby elements. This is usually the minimum requirement of every construction firm<br />
* LOD 400 - Sufficient information to fabricate the component with individual holes and weld sizes<br />
* LOD 500 - This is the fully developed design and shows the operational geometry of the component, the stage of installation of the component with duly verified information like manufacturer details, dates, part, and model number etc.<br />
<br />
Colloquialism of LOD in the construction industry<br />
<br />
The biggest advantage of LOD is it communicates the design details on its own. This means phone calls and emails are avoided saving significant time. It also means, there are no conversation gaps and a standard is maintained in transmitting the information from designer to contractor, from contractor to manufacturer, from manufacturer to the installer and so and so forth across the value chain to the way through facility management teams.<br />
<br />
However, just having a new language isn’t enough; it needs to be spoken and understood. As a result, there are [https://www.hitechcaddservices.com/bim/ outsourcing BIM experts] who help construction firms, contractors and consulting firms adopt BIM though BIM implementation and BIM Execution Plans (BEPs).<br />
<br />
At Hi-Tech CADD Services, we are the leaders with 25+ years of concrete experience of handling offshore projects equipped with Autodesk Revit and other industry-leading BIM platforms to help the construction industry grow.<br />
<br />
[https://www.hitechcaddservices.com/contact-us/ Contact us] to our BIM consultants for more queries on LOD and BIM implementation.<br />
<br />
[[Category:Construction_management]] [[Category:Construction_techniques]] [[Category:Design]] [[Category:Roles_/_services]]</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/LOD:_Linguistics_Needs_of_the_Construction_IndustryLOD: Linguistics Needs of the Construction Industry2018-12-04T12:37:14Z<p>Hitechcaddservices: Created page with "File:LOD Linguistics Needs of the Construction Industry-01.jpg In the era of digital designing and BIM platforms, we, construction industry professionals, work in 3D which i..."</p>
<hr />
<div>[[File:LOD Linguistics Needs of the Construction Industry-01.jpg]]<br />
<br />
In the era of digital designing and BIM platforms, we, construction industry professionals, work in 3D which is closer to the real world. But it also means we are more exposed to risks and challenges even while designing. When a design consultant hands off the model to someone else, let’s assume - a contractor or a structural engineer, they might have a different understanding. The later has a different understanding of what is done and what is going to be a challenge during construction.<br />
<br />
Large-scale construction companies face big-time challenges in communicating designs, obstacles, intents, and the gravity of a piece of information and much more across the divisions. They have a hard time getting their documents to flow amongst their partnering organizations, vendors, offshore workers, and others working remotely to propagate information that is uniform. And hence the construction industry needs a better language to communicate more than just 3D modeling and BIM platforms - something that we commonly refer to as [https://www.hitechcaddservices.com/bim/support/level-of-development-lod/ Level of Development (LOD)].<br />
<br />
Issues with 3D BIM and need of new language – LOD<br />
<br />
The major concern of working with a 3D BIM model of a building is that you cannot always trust it, at least not in every aspect. The difference between precision - accuracy and 3D parametric modeling is they have a history of not going hand in hand. The structural engineer could have modeled the column with significant decimal precisions and yet, on-site, the reality is completely different. The same column could be lying three feet away from the position in the model. This is because the modeling environment is never in synchronization with the reality.<br />
<br />
LOD resolves this by introducing the designer and the evaluator of any 3D BIM model can deploy to maintain the uniformity of the information being passed on. In a way, LOD scores each element of the BIM model digitally and sees the data maturity.<br />
<br />
See, the core issue with a simple 3D BIM modeling without LOD specifications is that there is no connection between the model and reality. This makes the model deviate from the reality when taken onsite. LOD repairs this issue. It gives the information about the digital maturity of each element and helps to develop the model in accordance. It is a trigger mechanism which starts the designer’s work only when the critical components reach a certain desired level of maturity.<br />
<br />
LOD: An introduction<br />
<br />
LOD standards were laid by AIA in 2008, from LOD 100 to LOD 500 to define the gravity of design detailing in the BIM model for each component. Additionally, the BIM forum also contributed to interpreting those levels for building products manufacturers and fabricators, especially, plumbing, electrical, foundation, roofs etc. to collaborate better.<br />
<br />
Owing to such an initiative, there exist six explicit levels of development as enlisted:<br />
<br />
* LOD 100 - Elements are a generic representation, giving the viewer a basic idea of existence and no idea about size, exact shape or orientation<br />
* LOD 200 - A representation of a rough idea of elements’ size, location in the facility etc. yet with much approximation<br />
* LOD 300 - This shows the specific geometric size of the element and orientation, location, and quantity used across the facility<br />
* LOD 350 - It is a revision of LOD 300 depicting precise information about how the component will be connected to the nearby elements. This is usually the minimum requirement of every construction firm<br />
* LOD 400 - Sufficient information to fabricate the component with individual holes and weld sizes<br />
* LOD 500 - This is the fully developed design and shows the operational geometry of the component, the stage of installation of the component with duly verified information like manufacturer details, dates, part, and model number etc.<br />
<br />
Colloquialism of LOD in the construction industry<br />
<br />
The biggest advantage of LOD is it communicates the design details on its own. This means phone calls and emails are avoided saving significant time. It also means, there are no conversation gaps and a standard is maintained in transmitting the information from designer to contractor, from contractor to manufacturer, from manufacturer to the installer and so and so forth across the value chain to the way through facility management teams.<br />
<br />
However, just having a new language isn’t enough; it needs to be spoken and understood. As a result, there are [https://www.hitechcaddservices.com/bim/ outsourcing BIM experts] who help construction firms, contractors and consulting firms adopt BIM though BIM implementation and BIM Execution Plans (BEPs).<br />
<br />
At Hi-Tech CADD Services, we are the leaders with 25+ years of concrete experience of handling offshore projects equipped with Autodesk Revit and other industry-leading BIM platforms to help the construction industry grow.<br />
<br />
[https://www.hitechcaddservices.com/contact-us/ Contact us] to our BIM consultants for more queries on LOD and BIM implementation.<br />
<br />
[[Category:Construction_management]] [[Category:Construction_techniques]] [[Category:Design]] [[Category:Roles_/_services]]</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/File:LOD_Linguistics_Needs_of_the_Construction_Industry-01.jpgFile:LOD Linguistics Needs of the Construction Industry-01.jpg2018-12-04T12:35:04Z<p>Hitechcaddservices: </p>
<hr />
<div></div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/User:Hi-TechCADDServicesUser:Hi-TechCADDServices2016-06-09T06:42:13Z<p>Hitechcaddservices: </p>
<hr />
<div>Hi-Tech CADD Services is an ISO 9001:2008 &amp; 27001:2005 certified, leading engineering design support providing company functioning in India since 1992.<br />
<br />
With a team of 700+ professionals and excellent infrastructure capabilities, the company has remained a valuable design support partner for Fortune 500s and SMEs in the engineering and manufacturing sector.<br />
<br />
The company primarily delivers engineering design support to transform the product development processes to digital, bridging the communication gap between stakeholders, improve productivity and operational efficiency and bring products to the market faster.<br />
<br />
= AEC Solutions =<br />
<br />
* [http://www.hitechcaddservices.com/architectural/ Architectural Services]: 2D drafting, 3D modeling and animation for architecture &amp; interior design support utilizing 3Ds Max, SketchUp, V-Ray, Photoshop, Revit and AutoCAD.<br />
<br />
<br />
<br />
* Structural Services: 2D and 3D CAD modeling for structural steel detailing, structural analysis and construction documentation utilizing Tekla, STAAD.Pro, Revit.<br />
<br />
<br />
<br />
* Building Energy Modeling: [http://www.hitechcaddservices.com/building-energy-modeling/ Energy &amp; Lightning analysis for sustainability], CFD analysis for HVAC design optimization &amp; efficiency, optimizing designs for green building certification requirements with help of eQuest, Relux &amp; Dialux, Autodesk Revit.<br />
<br />
<br />
<br />
* BIM Services: Development of BIM for LOD 100 to LOD 500 requirements, MEP BIM co-ordination, clash detection and as-built modeling using Autodesk Revit, Navisworks, Building Design Suite (BDS).<br />
<br />
= Engineering Design Support =<br />
<br />
* Mechanical Design: Engineering design support for mechanical machines &amp; tools, industrial equipment, sheet metal components and building products utilizing AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor and Autodesk P&amp;ID.<br />
<br />
<br />
<br />
* [http://www.hitechcaddservices.com/mechanical/design-and-drafting/ Product Design &amp; Drafting]: Development of 2D engineering drawings, manufacturing drawings, fabrication drawings and 3D modeling with help of AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
<br />
<br />
<br />
* Reverse Engineering: Point cloud to CAD conversion, 3D modeling and design optimization for legacy design data through AutoCAD, SolidWorks, Pro-Engineer and Solid Edge.<br />
<br />
<br />
<br />
* Rapid Prototyping: Development of printer-friendly CAD models for different additive manufacturing requirements using AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
<br />
<br />
<br />
* CFD Services: Simulating fluid flow to understand product behavior for single and multiphase flow, heat transfer and aerodynamic analysis using ANSYS Fluent, ANSYS CFX, OpenFOAM.<br />
<br />
<br />
<br />
* FEA Services: Determining structural, thermal and dynamic stresses to predict product performance and optimize design utilizing ANSYS Professional NLS, ANSYS Mechanical and ANSYS LS Dyna.<br />
<br />
<br />
<br />
* Value Engineering: Design support to reduce product development costs, effective resource utilization and FMEA studies.<br />
<br />
= Industries We Serve =<br />
<br />
* Aerospace/Aviation<br />
* Automotive &amp; Auto Ancillaries<br />
* Building/Construction<br />
* Building Products &amp; Components<br />
* Infrastructure<br />
* Plant Design Engineering<br />
* Fabricated Metal and Alloy Products<br />
* Heavy Engineering<br />
* Medical Devices<br />
<br />
Hi-Tech CADD Services has delivered 2500+ projects to more than 1000 clients in a span of more than 10 years. With global offices at five different locations in USA, Europe and Middle East, the company is increasingly establishing itself as an extension to support engineering &amp; design development processes for manufacturing organizations, EPC firms and engineering companies located across the globe.</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/User:Hi-TechCADDServicesUser:Hi-TechCADDServices2016-06-09T06:41:17Z<p>Hitechcaddservices: </p>
<hr />
<div>Hi-Tech CADD Services is an ISO 9001:2008 &amp; 27001:2005 certified, leading engineering design support providing company functioning in India since 1992.<br />
<br />
<br /><br />
With a team of 700+ professionals and excellent infrastructure capabilities, the company has remained a valuable design support partner for Fortune 500s and SMEs in the engineering and manufacturing sector.<br />
<br />
The company primarily delivers engineering design support to transform the product development processes to digital, bridging the communication gap between stakeholders, improve productivity and operational efficiency and bring products to the market faster.<br />
<br />
= AEC Solutions =<br />
<br />
* [http://www.hitechcaddservices.com/architectural/ Architectural Services]: 2D drafting, 3D modeling and animation for architecture &amp; interior design support utilizing 3Ds Max, SketchUp, V-Ray, Photoshop, Revit and AutoCAD.<br />
<br />
<br />
<br />
* Structural Services: 2D and 3D CAD modeling for structural steel detailing, structural analysis and construction documentation utilizing Tekla, STAAD.Pro, Revit.<br />
<br />
<br />
<br />
* Building Energy Modeling: [http://www.hitechcaddservices.com/building-energy-modeling/ Energy &amp; Lightning analysis for sustainability], CFD analysis for HVAC design optimization &amp; efficiency, optimizing designs for green building certification requirements with help of eQuest, Relux &amp; Dialux, Autodesk Revit.<br />
<br />
<br />
<br />
* BIM Services: Development of BIM for LOD 100 to LOD 500 requirements, MEP BIM co-ordination, clash detection and as-built modeling using Autodesk Revit, Navisworks, Building Design Suite (BDS).<br />
<br />
= Engineering Design Support =<br />
<br />
* Mechanical Design: Engineering design support for mechanical machines &amp; tools, industrial equipment, sheet metal components and building products utilizing AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor and Autodesk P&amp;ID.<br />
<br />
* [http://www.hitechcaddservices.com/mechanical/design-and-drafting/ Product Design &amp; Drafting]: Development of 2D engineering drawings, manufacturing drawings, fabrication drawings and 3D modeling with help of AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
<br />
* Reverse Engineering: Point cloud to CAD conversion, 3D modeling and design optimization for legacy design data through AutoCAD, SolidWorks, Pro-Engineer and Solid Edge.<br />
<br />
* Rapid Prototyping: Development of printer-friendly CAD models for different additive manufacturing requirements using AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
<br />
* CFD Services: Simulating fluid flow to understand product behavior for single and multiphase flow, heat transfer and aerodynamic analysis using ANSYS Fluent, ANSYS CFX, OpenFOAM.<br />
<br />
* FEA Services: Determining structural, thermal and dynamic stresses to predict product performance and optimize design utilizing ANSYS Professional NLS, ANSYS Mechanical and ANSYS LS Dyna.<br />
<br />
* Value Engineering: Design support to reduce product development costs, effective resource utilization and FMEA studies.<br />
<br />
= Industries We Serve =<br />
<br />
* Aerospace/Aviation<br />
* Automotive &amp; Auto Ancillaries<br />
* Building/Construction<br />
* Building Products &amp; Components<br />
* Infrastructure<br />
* Plant Design Engineering<br />
* Fabricated Metal and Alloy Products<br />
* Heavy Engineering<br />
* Medical Devices<br />
<br />
Hi-Tech CADD Services has delivered 2500+ projects to more than 1000 clients in a span of more than 10 years. With global offices at five different locations in USA, Europe and Middle East, the company is increasingly establishing itself as an extension to support engineering &amp; design development processes for manufacturing organizations, EPC firms and engineering companies located across the globe.</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/User:Hi-TechCADDServicesUser:Hi-TechCADDServices2016-06-09T06:40:44Z<p>Hitechcaddservices: </p>
<hr />
<div>Hi-Tech CADD Services is an ISO 9001:2008 &amp; 27001:2005 certified, leading engineering design support providing company functioning in India since 1992.<br /><br />
<br />
<br />
With a team of 700+ professionals and excellent infrastructure capabilities, the company has remained a valuable design support partner for Fortune 500s and SMEs in the engineering and manufacturing sector. The company primarily delivers engineering design support to transform the product development processes to digital, bridging the communication gap between stakeholders, improve productivity and operational efficiency and bring products to the market faster.<br />
<br />
= AEC Solutions =<br />
<br />
* [http://www.hitechcaddservices.com/architectural/ Architectural Services]: 2D drafting, 3D modeling and animation for architecture &amp; interior design support utilizing 3Ds Max, SketchUp, V-Ray, Photoshop, Revit and AutoCAD.<br />
<br />
* Structural Services: 2D and 3D CAD modeling for structural steel detailing, structural analysis and construction documentation utilizing Tekla, STAAD.Pro, Revit.<br />
<br />
* Building Energy Modeling: [http://www.hitechcaddservices.com/building-energy-modeling/ Energy &amp; Lightning analysis for sustainability], CFD analysis for HVAC design optimization &amp; efficiency, optimizing designs for green building certification requirements with help of eQuest, Relux &amp; Dialux, Autodesk Revit.<br />
<br />
* BIM Services: Development of BIM for LOD 100 to LOD 500 requirements, MEP BIM co-ordination, clash detection and as-built modeling using Autodesk Revit, Navisworks, Building Design Suite (BDS).<br />
<br />
= Engineering Design Support =<br />
<br />
* Mechanical Design: Engineering design support for mechanical machines &amp; tools, industrial equipment, sheet metal components and building products utilizing AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor and Autodesk P&amp;ID.<br />
<br />
* [http://www.hitechcaddservices.com/mechanical/design-and-drafting/ Product Design &amp; Drafting]: Development of 2D engineering drawings, manufacturing drawings, fabrication drawings and 3D modeling with help of AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
<br />
* Reverse Engineering: Point cloud to CAD conversion, 3D modeling and design optimization for legacy design data through AutoCAD, SolidWorks, Pro-Engineer and Solid Edge.<br />
<br />
* Rapid Prototyping: Development of printer-friendly CAD models for different additive manufacturing requirements using AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
<br />
* CFD Services: Simulating fluid flow to understand product behavior for single and multiphase flow, heat transfer and aerodynamic analysis using ANSYS Fluent, ANSYS CFX, OpenFOAM.<br />
<br />
* FEA Services: Determining structural, thermal and dynamic stresses to predict product performance and optimize design utilizing ANSYS Professional NLS, ANSYS Mechanical and ANSYS LS Dyna.<br />
<br />
* Value Engineering: Design support to reduce product development costs, effective resource utilization and FMEA studies.<br />
<br />
= Industries We Serve =<br />
<br />
* Aerospace/Aviation<br />
* Automotive &amp; Auto Ancillaries<br />
* Building/Construction<br />
* Building Products &amp; Components<br />
* Infrastructure<br />
* Plant Design Engineering<br />
* Fabricated Metal and Alloy Products<br />
* Heavy Engineering<br />
* Medical Devices<br />
<br />
Hi-Tech CADD Services has delivered 2500+ projects to more than 1000 clients in a span of more than 10 years. With global offices at five different locations in USA, Europe and Middle East, the company is increasingly establishing itself as an extension to support engineering &amp; design development processes for manufacturing organizations, EPC firms and engineering companies located across the globe.</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/User:Hi-TechCADDServicesUser:Hi-TechCADDServices2016-06-09T06:40:17Z<p>Hitechcaddservices: </p>
<hr />
<div>Hi-Tech CADD Services is an ISO 9001:2008 &amp; 27001:2005 certified, leading engineering design support providing company functioning in India since 1992.<br /><br />
<br /><br />
With a team of 700+ professionals and excellent infrastructure capabilities, the company has remained a valuable design support partner for Fortune 500s and SMEs in the engineering and manufacturing sector.<br /><br />
<br /><br />
The company primarily delivers engineering design support to transform the product development processes to digital, bridging the communication gap between stakeholders, improve productivity and operational efficiency and bring products to the market faster.<br />
<br />
= AEC Solutions =<br />
<br />
* [http://www.hitechcaddservices.com/architectural/ Architectural Services]: 2D drafting, 3D modeling and animation for architecture &amp; interior design support utilizing 3Ds Max, SketchUp, V-Ray, Photoshop, Revit and AutoCAD.<br /><br />
<br />
* Structural Services: 2D and 3D CAD modeling for structural steel detailing, structural analysis and construction documentation utilizing Tekla, STAAD.Pro, Revit.<br /><br />
<br />
* Building Energy Modeling: [http://www.hitechcaddservices.com/building-energy-modeling/ Energy &amp; Lightning analysis for sustainability], CFD analysis for HVAC design optimization &amp; efficiency, optimizing designs for green building certification requirements with help of eQuest, Relux &amp; Dialux, Autodesk Revit.<br /><br />
<br />
* BIM Services: Development of BIM for LOD 100 to LOD 500 requirements, MEP BIM co-ordination, clash detection and as-built modeling using Autodesk Revit, Navisworks, Building Design Suite (BDS).<br />
<br />
<br />
<br />
= Engineering Design Support =<br />
<br />
* Mechanical Design: Engineering design support for mechanical machines &amp; tools, industrial equipment, sheet metal components and building products utilizing AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor and Autodesk P&amp;ID.<br /><br />
<br />
* [http://www.hitechcaddservices.com/mechanical/design-and-drafting/ Product Design &amp; Drafting]: Development of 2D engineering drawings, manufacturing drawings, fabrication drawings and 3D modeling with help of AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br /><br />
<br />
* Reverse Engineering: Point cloud to CAD conversion, 3D modeling and design optimization for legacy design data through AutoCAD, SolidWorks, Pro-Engineer and Solid Edge.<br /><br />
<br />
* Rapid Prototyping: Development of printer-friendly CAD models for different additive manufacturing requirements using AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br /><br />
<br />
* CFD Services: Simulating fluid flow to understand product behavior for single and multiphase flow, heat transfer and aerodynamic analysis using ANSYS Fluent, ANSYS CFX, OpenFOAM.<br /><br />
<br />
* FEA Services: Determining structural, thermal and dynamic stresses to predict product performance and optimize design utilizing ANSYS Professional NLS, ANSYS Mechanical and ANSYS LS Dyna.<br /><br />
<br />
* Value Engineering: Design support to reduce product development costs, effective resource utilization and FMEA studies.<br />
<br />
= Industries We Serve =<br />
<br />
* Aerospace/Aviation<br />
* Automotive &amp; Auto Ancillaries<br />
* Building/Construction<br />
* Building Products &amp; Components<br />
* Infrastructure<br />
* Plant Design Engineering<br />
* Fabricated Metal and Alloy Products<br />
* Heavy Engineering<br />
* Medical Devices<br />
<br />
Hi-Tech CADD Services has delivered 2500+ projects to more than 1000 clients in a span of more than 10 years. With global offices at five different locations in USA, Europe and Middle East, the company is increasingly establishing itself as an extension to support engineering &amp; design development processes for manufacturing organizations, EPC firms and engineering companies located across the globe.</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/User:Hi-TechCADDServicesUser:Hi-TechCADDServices2016-06-09T06:34:32Z<p>Hitechcaddservices: </p>
<hr />
<div>Hi-Tech CADD Services is an ISO 9001:2008 &amp; 27001:2005 certified, leading engineering design support providing company functioning in India since 1992. With a team of 700+ professionals and excellent infrastructure capabilities, the company has remained a valuable design support partner for Fortune 500s and SMEs in the engineering and manufacturing sector. The company primarily delivers engineering design support to transform the product development processes to digital, bridging the communication gap between stakeholders, improve productivity and operational efficiency and bring products to the market faster.<br />
<br />
<br />
<br />
= AEC Solutions =<br />
<br />
* [http://www.hitechcaddservices.com/architectural/ Architectural Services]: 2D drafting, 3D modeling and animation for architecture &amp; interior design support utilizing 3Ds Max, SketchUp, V-Ray, Photoshop, Revit and AutoCAD.<br />
* Structural Services: 2D and 3D CAD modeling for structural steel detailing, structural analysis and construction documentation utilizing Tekla, STAAD.Pro, Revit.<br />
* Building Energy Modeling: [http://www.hitechcaddservices.com/building-energy-modeling/ Energy &amp; Lightning analysis for sustainability], CFD analysis for HVAC design optimization &amp; efficiency, optimizing designs for green building certification requirements with help of eQuest, Relux &amp; Dialux, Autodesk Revit.<br />
* BIM Services: Development of BIM for LOD 100 to LOD 500 requirements, MEP BIM co-ordination, clash detection and as-built modeling using Autodesk Revit, Navisworks, Building Design Suite (BDS).<br />
<br />
<br />
<br />
= Engineering Design Support =<br />
<br />
* Mechanical Design: Engineering design support for mechanical machines &amp; tools, industrial equipment, sheet metal components and building products utilizing AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor and Autodesk P&amp;ID.<br />
* [http://www.hitechcaddservices.com/mechanical/design-and-drafting/ Product Design &amp; Drafting]: Development of 2D engineering drawings, manufacturing drawings, fabrication drawings and 3D modeling with help of AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
* Reverse Engineering: Point cloud to CAD conversion, 3D modeling and design optimization for legacy design data through AutoCAD, SolidWorks, Pro-Engineer and Solid Edge.<br />
* Rapid Prototyping: Development of printer-friendly CAD models for different additive manufacturing requirements using AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
* CFD Services: Simulating fluid flow to understand product behavior for single and multiphase flow, heat transfer and aerodynamic analysis using ANSYS Fluent, ANSYS CFX, OpenFOAM.<br />
* FEA Services: Determining structural, thermal and dynamic stresses to predict product performance and optimize design utilizing ANSYS Professional NLS, ANSYS Mechanical and ANSYS LS Dyna.<br />
* Value Engineering: Design support to reduce product development costs, effective resource utilization and FMEA studies.<br />
<br />
= Industries We Serve =<br />
<br />
* Aerospace/Aviation<br />
* Automotive &amp; Auto Ancillaries<br />
* Building/Construction<br />
* Building Products &amp; Components<br />
* Infrastructure<br />
* Plant Design Engineering<br />
* Fabricated Metal and Alloy Products<br />
* Heavy Engineering<br />
* Medical Devices<br />
<br />
Hi-Tech CADD Services has delivered 2500+ projects to more than 1000 clients in a span of more than 10 years. With global offices at five different locations in USA, Europe and Middle East, the company is increasingly establishing itself as an extension to support engineering &amp; design development processes for manufacturing organizations, EPC firms and engineering companies located across the globe.</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/User:Hi-TechCADDServicesUser:Hi-TechCADDServices2016-06-09T06:34:01Z<p>Hitechcaddservices: </p>
<hr />
<div>Hi-Tech CADD Services is an ISO 9001:2008 &amp; 27001:2005 certified, leading engineering design support providing company functioning in India since 1992. With a team of 700+ professionals and excellent infrastructure capabilities, the company has remained a valuable design support partner for Fortune 500s and SMEs in the engineering and manufacturing sector. The company primarily delivers engineering design support to transform the product development processes to digital, bridging the communication gap between stakeholders, improve productivity and operational efficiency and bring products to the market faster.<br />
<br />
<br />
<br />
= AEC Solutions =<br />
<br />
* [http://www.hitechcaddservices.com/architectural/ Architectural Services]: 2D drafting, 3D modeling and animation for architecture &amp; interior design support utilizing 3Ds Max, SketchUp, V-Ray, Photoshop, Revit and AutoCAD.<br />
* Structural Services: 2D and 3D CAD modeling for structural steel detailing, structural analysis and construction documentation utilizing Tekla, STAAD.Pro, Revit.<br />
* Building Energy Modeling: [http://www.hitechcaddservices.com/building-energy-modeling/ Energy &amp; Lightning analysis for sustainability], CFD analysis for HVAC design optimization &amp; efficiency, optimizing designs for green building certification requirements with help of eQuest, Relux &amp; Dialux, Autodesk Revit.<br />
* BIM Services: Development of BIM for LOD 100 to LOD 500 requirements, MEP BIM co-ordination, clash detection and as-built modeling using Autodesk Revit, Navisworks, Building Design Suite (BDS).<br />
<br />
= <br /><br />
Engineering Design Support =<br />
<br />
* Mechanical Design: Engineering design support for mechanical machines &amp; tools, industrial equipment, sheet metal components and building products utilizing AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor and Autodesk P&amp;ID.<br />
* [http://www.hitechcaddservices.com/mechanical/design-and-drafting/ Product Design &amp; Drafting]: Development of 2D engineering drawings, manufacturing drawings, fabrication drawings and 3D modeling with help of AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
* Reverse Engineering: Point cloud to CAD conversion, 3D modeling and design optimization for legacy design data through AutoCAD, SolidWorks, Pro-Engineer and Solid Edge.<br />
* Rapid Prototyping: Development of printer-friendly CAD models for different additive manufacturing requirements using AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
* CFD Services: Simulating fluid flow to understand product behavior for single and multiphase flow, heat transfer and aerodynamic analysis using ANSYS Fluent, ANSYS CFX, OpenFOAM.<br />
* FEA Services: Determining structural, thermal and dynamic stresses to predict product performance and optimize design utilizing ANSYS Professional NLS, ANSYS Mechanical and ANSYS LS Dyna.<br />
* Value Engineering: Design support to reduce product development costs, effective resource utilization and FMEA studies.<br />
<br />
= Industries We Serve =<br />
<br />
* Aerospace/Aviation<br />
* Automotive &amp; Auto Ancillaries<br />
* Building/Construction<br />
* Building Products &amp; Components<br />
* Infrastructure<br />
* Plant Design Engineering<br />
* Fabricated Metal and Alloy Products<br />
* Heavy Engineering<br />
* Medical Devices<br />
<br />
Hi-Tech CADD Services has delivered 2500+ projects to more than 1000 clients in a span of more than 10 years. With global offices at five different locations in USA, Europe and Middle East, the company is increasingly establishing itself as an extension to support engineering &amp; design development processes for manufacturing organizations, EPC firms and engineering companies located across the globe.</div>Hitechcaddserviceshttps://www.designingbuildings.co.uk/wiki/User:Hi-TechCADDServicesUser:Hi-TechCADDServices2016-06-09T06:32:57Z<p>Hitechcaddservices: </p>
<hr />
<div>Hi-Tech CADD Services is an ISO 9001:2008 &amp; 27001:2005 certified, leading engineering design support providing company functioning in India since 1992. With a team of 700+ professionals and excellent infrastructure capabilities, the company has remained a valuable design support partner for Fortune 500s and SMEs in the engineering and manufacturing sector. The company primarily delivers engineering design support to transform the product development processes to digital, bridging the communication gap between stakeholders, improve productivity and operational efficiency and bring products to the market faster.<br />
<br />
<br /><br />
AEC Solutions<br /><br />
<br />
<br />
* [http://www.hitechcaddservices.com/architectural/ Architectural Services]: 2D drafting, 3D modeling and animation for architecture &amp; interior design support utilizing 3Ds Max, SketchUp, V-Ray, Photoshop, Revit and AutoCAD.<br />
* Structural Services: 2D and 3D CAD modeling for structural steel detailing, structural analysis and construction documentation utilizing Tekla, STAAD.Pro, Revit.<br />
* Building Energy Modeling: [http://www.hitechcaddservices.com/building-energy-modeling/ Energy &amp; Lightning analysis for sustainability], CFD analysis for HVAC design optimization &amp; efficiency, optimizing designs for green building certification requirements with help of eQuest, Relux &amp; Dialux, Autodesk Revit.<br />
* BIM Services: Development of BIM for LOD 100 to LOD 500 requirements, MEP BIM co-ordination, clash detection and as-built modeling using Autodesk Revit, Navisworks, Building Design Suite (BDS).<br /><br />
<br />
<br />
Engineering Design Support<br />
<br />
<br />
<br />
* Mechanical Design: Engineering design support for mechanical machines &amp; tools, industrial equipment, sheet metal components and building products utilizing AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor and Autodesk P&amp;ID.<br />
* [http://www.hitechcaddservices.com/mechanical/design-and-drafting/ Product Design &amp; Drafting]: Development of 2D engineering drawings, manufacturing drawings, fabrication drawings and 3D modeling with help of AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
* Reverse Engineering: Point cloud to CAD conversion, 3D modeling and design optimization for legacy design data through AutoCAD, SolidWorks, Pro-Engineer and Solid Edge.<br />
* Rapid Prototyping: Development of printer-friendly CAD models for different additive manufacturing requirements using AutoCAD, SolidWorks, Solid Edge, Pro-Engineer, Creo, Inventor.<br />
* CFD Services: Simulating fluid flow to understand product behavior for single and multiphase flow, heat transfer and aerodynamic analysis using ANSYS Fluent, ANSYS CFX, OpenFOAM.<br />
* FEA Services: Determining structural, thermal and dynamic stresses to predict product performance and optimize design utilizing ANSYS Professional NLS, ANSYS Mechanical and ANSYS LS Dyna.<br />
* Value Engineering: Design support to reduce product development costs, effective resource utilization and FMEA studies.<br />
<br />
Industries We Serve<br />
<br />
* Aerospace/Aviation<br />
* Automotive &amp; Auto Ancillaries<br />
* Building/Construction<br />
* Building Products &amp; Components<br />
* Infrastructure<br />
* Plant Design Engineering<br />
* Fabricated Metal and Alloy Products<br />
* Heavy Engineering<br />
* Medical Devices<br />
<br />
Hi-Tech CADD Services has delivered 2500+ projects to more than 1000 clients in a span of more than 10 years. With global offices at five different locations in USA, Europe and Middle East, the company is increasingly establishing itself as an extension to support engineering &amp; design development processes for manufacturing organizations, EPC firms and engineering companies located across the globe.</div>Hitechcaddservices