By Ali K. Kamrani, Emad Abouel Nasr
Collaborative Engineering (CE) is the systematic method of the built-in, concurrent layout of goods and similar tactics, together with production, product carrier and aid. This technique is meant to reason the builders to think about all components of the product lifestyles cycle from belief via disposal, together with caliber, rate, time table, and consumer standards. the target of Collaborative Engineering is to minimize the system/product improvement cycle time via a greater integration of assets, actions and processes.
Collaborative Engineering: idea and perform bargains insights into the equipment and strategies that allow enforcing a Collaborative Engineering proposal on product layout by way of integrating services for clever info help and staff decision-making using a typical company community version and data interface via shared ontologies.
The ebook is additionally a set of the most recent utilized equipment and know-how from chosen specialists during this zone for you to be dependent in a manner beneficial in supporting and structuring the course.
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Additional info for Collaborative Engineering: Theory and Practice
Example text
At equilibrium conditions, resultant moment ΣM = 0, resultant horizontal forces ΣFhor = 0, and resultant vertical forces ΣFvert = 0. 24) The resultant axial force is calculated as: Fade + Fande = Fa1 + Fa2 + G1 sin q + G2 sin q + Gsin q Fr1 – radial force acting on the drive end. Fa1 – axial force acting on the drive end. K. Kamrani, A. Vijayan G1 – weight of drive end transmission device. Fr2 – radial force acting on the nondrive end. Fa2 – axial force acting on the nondrive end. G2 – weight of nondrive end transmission device.
The proposed framework provides the means of integrating software tools that enables the designers to foresee the overall product and enterprise fulfillment during development phases. It will reduce the time required for repetitive analysis for different alternatives. Thus the designer can evaluate more alternatives and can obtain the optimal solution. This integrated system allows the designers to participate in the design process irrespective of geographical location. The developed system provides the capability for design of templates for catalog-based design.
The nonproductive time (tnp) required for the process is found by assigning values to the number of operations (no) and the number of tools (nt) required for the machining process which depends on the features to be machined. The setup times for the machine (tsa), the setup time per tool (tsb), and the tool positioning time (tpt) are obtained from the machine database. The batch size is directly obtained from the user interface. The loading and unloading time depends on the weight of the work piece (W), which is obtained from the raw material database.