Bim and Design Support Services

Author: Alex Denver

Building Information Modelling
AEC firms around the globe are transitioning from 2D CAD Platforms like ACAD and Micro Station to 3D intelligent modelling in BIM. BIM technology provides a link between, design, construction and management along with improved productivity for easy retrieval of embedded data information. BIM support services provides you with an efficient way to transition from 2D platforms to intelligent modelling in order to reduce project cost, increase profitability and save time.
Following are some of the BIM support services:
• Building Information Model: BIM model for Architecture, Interiors and Engineering Projects. These files could be at any phase of the work such as schematic design, design development, construction documents or as built conditions. The file formats could be in the form of hand sketches, photographs, PDF’s, JPG’s, DWG, DWF’s, etc.
• 3D Visualization: 3d Models for renderings and animations. These models can also be used to study building geometry/massing and construction sequencing.
• Embedding/linking and extracting of various Information
• Conflict Detection: Identify conflicts amongst various design disciplines for delivering fully coordinated BIM model.
• Detail Library: Drafting details in BIM as a part of the project or as a separate library with customized line weights, hatch patterns, etc.
The design support services include schematic design, design development, construction documentation, structure, MEP/Architectural Information Coordination, conflict identification, CAD systems development, code compliance checks, record drawings, s-built drawings, shop drawings, CAD conversion/rasterisation.

The design support services provide the following advantages to the AEC firms worldwide:
• Allows you to focus on core business rather than production
• Reduce project costs and improve project margins by 50-60%
• Time Zone advantage
• Improvement in the delivery schedule by 40-50%
• Enable you to streamline operations during peak & lean periods
• No infrastructure investments
Providing services in CAD documentation, 3d modelling, Building Information Modelling & Engineering to AEC firms worldwide for various industry segments like:
• Commercial
• Residential
• Hospitality
• Retail
• Corporate
• Healthcare
• Institutional
• Recreational

About the Author:
The author of this article is working with DesignPresentation Associates.
For more information log on to:
DesignPresentation -- a cad conversion, cad drafting and raster to vector services site.
http://www.designpresentation.com/

Article Source: Articlesbase

Cam And Computer Aided Design

Author: KEVIN STITH

Computer Aided Design (CAD) is the automation that uses various computer-aided design tools that guide engineers, architects and other professionals in their design activities. It is considered to be both software and special-purpose hardware. Computer Aided Manufacturing (CAM) is a software process that directly converts the product drawing into the code format enabling the machine to manufacture the product. CAM is used in various machines like lathes or milling machines for product manufacturing purposes.

CAM allows the computer work instructions to be given directly to the manufacturing machinery. It also uses algorithms for planning and controlling the fabrication processes. As a part of the design process, these algorithms are also used in the CAD systems during the manufacturability tests. The mechanism of CAM was developed by Computer Numerical Machines (CNC) in the early 1950’s. The system was directed by a set of coded instructions in a punched paper tape.

Integration of CAM with a CAD system designs and develops the manufacturing processes quickly and efficiently. This integrated mechanism is used in key areas such as the automotive, aviation and furniture industries. CAM is considered to be a very expensive system, which ranges over $18,000 for the computer system along with the software.

Design processes and the machining are more simplified with the help of the CAM system, which is used in CNC manufacturing. A 3D environment is used for a CAM system to work with the CAD system in most cases. A CAM system can efficiently control and manage various applications done from a single computer system. This makes the process much easier and faster; computer reprogramming is relatively simple and allows for faster implementation of design changes.

A CAM system controls the factors involving the data verification during manufacturing; panelizing the design to fit in the raw material; and editing and adding manufacturing information. Mechanical engineering and electronic design automation are the key areas where the CAM system is used. Computer-Integrated Manufacturing (CIM), Integrated Computer-Aided Manufacturing (ICAM) and Flexible Manufacturing System (FMS) are the major manufacturing mechanisms that are involved in the CAM system.

About the Author:

Applications of Computer Aided Manufacturing provides detailed information on Applications of Computer Aided Manufacturing, Cam And Computer Aided Design, Computer Aided Design , Computer Aided Design Scanners and more. Applications of Computer Aided Manufacturing is affiliated with Computer Aided Design and Manufacturing.

Article Source: Amazines

Mechanical Design and Drawing—the Cad Wonderland

Author: Alex Denver

Mechanical design and drafting has significantly benefited today's refined mechanical and engineering designers. Although. Some of the generally cited benefits include improved accuracy, efficiency along with easy interference inspection, better layout, labeling and dimensioning. No matter how CAD system is used, it is very much capable of handling the varied requirements of mechanical and electrical designers.

Mechanical design and drawing is a growing field and reaps the maximum benefits nowadays. The software used in the mechanical drawings range from autoCAD (DWG, DXF) to microStation (DGN) from adobe illustrator (AI) to coreldraw (CDR) and vectorworks, etc. The applications include assembly drawings for all types of mechanical assemblies, architectural schematics, structural designs, and auto components designs.

Amongst the various applications of mechanical design, the vital consumers are:

1. Mechanical Drawings for Architects: Architects use mechanical design for 3-D still images, Photo realistic renderings, Animations, 3-D Walk-through/Fly-through and 360 degrees view of building

2. Mechanical Drawings for Engineers: The mechanical drawings in the engineering hold a crucial place. Communicating design ideas become better and effective, exhibiting perception becomes easy with combination of color schemes and lighting.

3. Mechanical Drawings for all fields: Building management systems, electrical circuit design, lighting calculations, HV/Transformer cabling & Installation, plant layouts, electrical circuit calculations, invisible heating solutions, PA & Voice alarm installations, intelligent building systems, IT installations, maintenance and PAT testing and CCTV and security systems.

With the advent of PC based CAD software, not only made CAD more reasonable, it also made it more resourceful. Thus, mechanical drawings have many associated advantages along with the wide array of application areas.

About the Author:
The author of this article is working with mechanical design and drafting site www.mechanicaldrawings.biz

Article Source: Articlesbase