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The CAFM is usually a shortcut of Computer Aided Facility Management.
Freehand drawings can be made on any piece of paper anywhere. Computer Aided Design drawings are only made on a computer and are confined to what the computer program will do
A CAD database can be used several ways but the most common are modeling 2D and 3D geometry drawings as well as other ways to create documents for manufacturing and legal consideration
Civil engineers head up civil projects and design and approve the final results. A 4 year university degree from an accredited Engineering College is required, and engineers must become accredited as professionals before they can work on their own without another professional engineer's supervision. They learn and apply science and math theory to design, manage projects, and ultimately take full responsibility for a final projects success or failure in the field. Civil engineering technologists assist the engineers in various aspects of the design process including computer aided drafting (CAD) for blueprints and layouts of the engineer's design. They could also be required to survey the potential location of a project, or set up various monitoring or analysis equipment required for the design or construction of the project. Finally, they could assist in the actual construction process of the project (depending on the nature of the project). Engineering technologists are required to obtain a diploma from a certified technologist school or institute. They learn the practical aspects of certain proecedures required for the completion of civil design projects.
BS 8888 is the British standard for technical product documentation, including engineering drawings. It provides guidelines and standards for the creation, interpretation, and presentation of engineering drawings. The general principles outlined in BS 8888 are of utmost importance in engineering drawing for several reasons: **Standardization and Consistency:** BS 8888 ensures that engineering drawings follow a standardized format and conventions. This consistency is crucial for clear communication and understanding among engineers, designers, manufacturers, and other stakeholders involved in the product development process. **Clarity and Precision:** Following the general principles in BS 8888 ensures that engineering drawings are clear, accurate, and precise. This reduces the risk of misinterpretation or errors during manufacturing or assembly, leading to higher quality products. **Interchangeability and Compatibility:** Standardized engineering drawings based on BS 8888 facilitate the exchange of information between different organizations, industries, and countries. This interchangeability promotes efficient collaboration and seamless integration of components and systems from various sources. **Cost-Effective Manufacturing:** Well-structured and standardized engineering drawings help manufacturers understand design intent and dimensions clearly. This leads to more cost-effective manufacturing processes, reduced waste, and fewer errors during production. **Compliance with Regulations:** Many industries have regulatory requirements that demand adherence to specific drawing standards. BS 8888 ensures that engineering drawings comply with relevant industry regulations and statutory requirements. **Lifecycle Management and Documentation:** The general principles in BS 8888 promote the proper documentation of engineering drawings throughout the product's lifecycle. This documentation is essential for maintenance, repair, and further development of the product. **Efficient Communication:** Engineering drawings are a primary means of communication between different teams involved in the product development process. Following BS 8888 helps convey design intent, specifications, and manufacturing requirements effectively. **Risk Reduction:** Errors or misunderstandings in engineering drawings can lead to costly rework or safety risks in the final product. Following BS 8888 minimizes the chances of such issues, thus reducing potential risks. **Support for Computer-Aided Design (CAD):** The general principles of BS 8888 are compatible with CAD software, making it easier to create, modify, and store engineering drawings digitally. This enhances productivity and enables rapid design iterations. **Global Recognition:** BS 8888 is widely recognized and accepted internationally. Engineers and manufacturers from different countries can understand and work with engineering drawings that follow these standards. In summary, adhering to the general principles of BS 8888 in engineering drawing is vital for promoting consistency, accuracy, and effective communication in the product development process. It ensures that engineering drawings are clear, standardized, and compliant with industry regulations, ultimately leading to better-quality products and more efficient manufacturing processes.
Daniel boone
Computer Aided Design or Drafting (Draughting in the UK)
The proper name is spelled either Sacagawea or Sacajawea, a Shoshone (Indian) woman who, along with her French trapper husband, aided explorers Lewis and Clark on their 1805 expedition to the US Northwest.
The proper name is spelled either Sacagawea or Sacajawea, a Shoshone (Indian) woman who, along with her French trapper husband, aided explorers Lewis and Clark on their 1805 expedition to the US Northwest.
CAD Stands for computer-aided design and drafting.
he was aided by goddess Athena
dutys of kerala aided school
12 divided aided by 3240 = 0.003703703703703704
Government aid school teacher is a teacher who is funded by the government. While on the other hand a government sponsored school teacher is only sponsored by the government, but does not receive money.
CAD means computer aided design and cam mean computer aided manufacturer.
Definition of computer aided drug design?
the british army was aided by loyalist.