The confidence to push the threshold of product performance of future transportation and mobility solutions requires enterprises to be able to weigh the potential trade-offs of their products' cost, quality, safety, function, and use of resources. The best way to achieve goals for energy efficiency, safety, comfort, and lightweight is to evaluate if a proposed product is practical when it comes to the selected material type, shape and geometry, production costs, and logistics requirements, early on.
Having reached the limits of conventional body manufacturing, new concepts introduce novel materials and processes to further increase range, reduce energy consumption, while maintaining safety. Going forward, product development decisions cannot be made without cross-checking the manufacturing feasibility of those same products. The manufacturing requirements of the last century's products are transforming to suit the aspirations of modern mobility:
Manufacturing disciplines historically associated with smaller production volumes will be challenged to ramp up to the needs of their expanded use in manufacturing (E.g., composites, with relatively low annual production yield, needs to increase by several degrees of magnitude)
Manufacturing processes used to produce vital vehicular structures will not be monolithically delivered by single manufacturing industry domain (E.g., stamping and welding are not the sole sources of automotive Body-in-White)
Will strength and performance characteristics, intended for the new products, be achievable, as proposed, in the manufacturing delivery of those products? By applying Virtual Manufacturing, companies can validate the proposed manufacturing processes and material requirements set forth by the product development and design engineering teams.
ESI Virtual Manufacturing Solutions Aim to Address Those Concerns by Offering a Wide Range of Manufacturing Process Domains
It’s been said that; when your only tool is a hammer, every problem looks like a nail. Defining the right material and manufacturing process to deliver a product is a decision that is sometimes made by the availability of the tools on hand. Say you decide to invest heavily in gravity casting simulation technology – how prepared are you for the day your foundry quotes a high pressure die casting project? Or maybe you invest in simulation for stamping sheet metal, and then your product transition to carbon fiber constructions – will you be ready?
Allow us to be your partner as you prepare for this upcoming transformation. Our history of simulating physics behavior and a wide range of material processing technologies – from sheet metal stamping & welding assembly, to die casting, sand casting, and investment casting, or even manufacturing resin-infused or pre-preg composite structures – we have an ‘app’ for that. Don’t let an IT decision about a software provider prevent your enterprise from addressing this shifting ecosystem of manufacturing technology. Stay a step ahead.
How Virtual Manufacturing Can Benefit You
Users who integrate ESI Virtual Manufacturing solutions into their product and process validation processes can expect massive time and money savings associated with physical prototyping, not to mention the costs avoided when they can experience assembly in advance.