Mass Customization and PLM

Manufacturing is changing. Modern day manufacturing trends are consistently transforming enterprise systems as we know them. A single of the most visible trends in manufacturing is mass customization. We are moving from mass production model toward total customization. The demand for configuration is increasing and consumers are requiring sophistication of engineering, to order manufacturing processes, for a broader range of goods and services.

Mass Customization is a method in which a business attempts to industry a product to a customer’s individual wants and needs although still producing the products at high level. That is, mass customization combines characteristics of custom service and mass production. A business engaging in mass customization may provide a fundamental package for a item and then enable a buyer to add or subtract various characteristics at their discretion.

PLM and ERP are two primary systems involved in the procedure of engineering and manufacturing. To support mass customization product engineering and manufacturing these systems will have to interplay in a fully distinct way. Bill of components is at the centre of these processes. What was done ahead of by configuring a modest set of preconfigured modules will not work in a new reality of modern manufacturing solutions and mass customization. Improved product customization by improvement of BOM management and offering configurable BOM solution integrated with manufacturing systems is needed. Even so, in a lot of scenarios, product configuration capabilities are defined in the core of item style CAD system.

Most of 3D mechanical CAD systems support the capability to generate some sort of product variations. But the challenge lies in connecting CAD product configurations to engineering and manufacturing systems. CAD design is hardly integrated with PDM databases. Engineering BOMs are not synchronized with manufacturing BOM and shop floor and production facilities.

These days much more new discoveries are being made in cloud CAD systems. 1 of the considerable positive aspects of cloud CAD is that it includes data management functionality. Cloud primarily based CAD systems can leverage data management capabilities to control far more design and style parameters and item features. By doing that, it will enable better integration amongst design configuration and product functions. These days most of these parameters are hardly captured. New cloud CAD systems can supply data driven atmosphere to control critical style parameters and to support data-driven design and style.

Partner with a service provider who economically and efficiently manufacture and provide initial runs of new items/components for industry introductions. The service-provider must value-creating solutions for CAM, Rapid Prototyping, and Pilot Batch Production by using the latest digital technologies in sensible applications.
Solidaritas – Brother B.O.M 198