3D Technology for Innovating Design and Production Lifecycle

3D Technology for Innovating Design

3D printing, also known as additive manufacturing in the industrial world, is emerging as a future-driven technology. The innovations in 3D technology are impacting this printing method to revolutionize the way products are designed, manufactured and serviced. This technology goes through rapid advancements to impact for a breakthrough efficiency and matchless flexibility in the several industries.

Many global leaders in aviation, automotive and health care have already disrupted the power of additive manufacturing in their environments. The last-minute advancements in 3D printing technology are capable of an on-demand manufacturing of concepts or prototype models without involving any dedicated machinery or toolings.

Some of the leading 3D printing are renowned for their inventory capabilities and technical expertise in producing 3D models on different varieties of materials. Many companies here additive manufacturing solutions using titanium, stainless steel, bronze, brass, silver, gold, ceramics, chocolate, bio-ink, bone material, Objet Digital Material, Objet Tango Family, hot glue, glass, full-color sandstone, and gypsum.

How 3D Printing Technology Works

Additive Manufacturing has become inevitable in the new age industrial world, to make 3D visualization of any design concept easy by adding layers with an ever-increasing number of materials. AM technologies are commonly used along with a computer, 3D modeling software like Autodesk 3Ds Max or CAD, machine equipment and layering material.

When a 3D design is produced, the printer reads the data and adds successive layers or material – liquid, powder or sheet in order to form the 3D object. Many futuristic organizations are bringing together AI, Cloud and Big Data technologies with 3D printing in order to gain more precision and accuracy across production lifecycles. In addition to 3D printing, Additive manufacturing also encompasses Rapid Prototyping, Direct Digital Manufacturing, layered manufacturing, and additive fabrication.

The Future of Additive Manufacturing

The application of additive manufacturing will be limitless in the future for fabricating end-use products in aircraft, dental restoration, surgical implants, automobile, and even fashion industry. Additive layer manufacturing using 3D printing technology can be a simple approach, though there are many other complex applications such as design visualization, custom product manufacturing, industrial tooling, mass production of small components and in even for manufacturing human organs in the future.

The Need For Expertise

The 3D printing technology is having great potential for accelerating several industrial processes in the future. The industry demands vast technical expertise in the basic principles and workflow for processing different metals and composites, in order to impact the overall performance.

In order to match up with the innovations in 3D printing professionals also need to have sound knowledge to navigate through complex, multifaceted landscape of additive manufacturing equipment, materials, and applications. They should also be familiar with the specific applications of additive manufacturing in unique processes and materials.

Global leaders in 3D printing technology have realized the need of equipping their 3D design team with necessary skills to combine engineering skills with computational designs and process-specific disciplines. A great amount of quantitative assessment should be implied to value the production cost and performance of an additively manufactured product.