South-Korea (한국어)
South-Korea (한국어)
Blog

How additive manufacturing may just save automotive aftermarket spare parts.


authorjpg

Jaclyn Schindler Adhoh

air vents

In a September 2021 earnings call, AutoZone, Inc. CEO William Rhodes stated, “This is the most difficult supply-chain environment that I have ever seen.” According to Rhodes, AutoZone is running “the lowest level of in-stock that [he] can ever remember” (https://www.bloomberg.com/news/articles/2021-10-16/car-parts-shortages-are-hitting-u-s-garages-creating-weeks-long-delays).

Whether it be harsh weather conditions, an accident or standard wear-and-tear, automotive manufacturers and mechanics are struggling to provide spare parts for customers in time. Due to COVID delays, there has been a global semiconductor shortage which derailed the production of new cars. With people forced to maintain their older vehicles or invest in used cars, acquiring spare parts is essential.

Delayed repairs are leaving people without means of transportation while they must cover the ongoing expense of rental cars. In addition to customers, the lack of spare parts is negatively affecting automotive shops and resulting in loss of income.

Supply chain challenges are affecting the automotive industry.

Conduct a quick Google search with the terms “automotive spare parts delay” and the number of different areas affected worldwide is shocking. From Kent in the UK to Ontario and even Minnesota, cars sit for months out of commission while mechanics wait (not so patiently) to finally receive the required spare parts.

But there is a light at the end of this never-ending supply chain tunnel: additive manufacturing.

The H350™ 3D printer powered by SAF™ technology is the answer to the automotive industry’s prayers. Created for short-run, serial production of 1,000 – 20,000 parts, the H350 maintains high part consistency, complexities and geometric accuracy. Automotive applications printed with the H350 and High Yield PA11 polymer powder are impact-resistant and functional.  

In comparison to traditional injection molding, lead times can be reduced from 12–20 weeks down to just a few days before beginning production. Additionally, in a day or two, a build of spare automotive parts can be ready for distribution. The parking sensor housing below only takes 8.5 hours to produce 270 pieces.

Front bumper sensor bracket

As supply chain challenges continue to plague the automotive industry, the H350 offers an effective solution that will allow spare parts to become just that… spare.   

Related Content

driving car

The Future of Automotive: Shifting from Traditional to Additive Manufacturing

Series of four webinars will explore the advantages of utilizing additive manufacturing to support vehicle production and produce end-use automotive components.

더보기
Full Wheel Plus Pattern

Achieve Additive Manufacturing Volume Production with PA11 & SAF Technology.

Explore PA11’s properties, the benefit of printing with the H350 and how PA11 and SAF technology can propel your business into the high-volume production space.

더보기
Electrical Cable Clips   upload to My Stratasys

Production of end-use parts for the automotive industry using the H350 3D printer

The H350™ 3D printer utilizes SAF™ technology to produce consistent and accurate end-use parts for the automotive industry.

더보기
driving car

Series of four webinars will explore the advantages of utilizing additive manufacturing to support vehicle production and produce end-use automotive components.

Full Wheel Plus Pattern

Explore PA11’s properties, the benefit of printing with the H350 and how PA11 and SAF technology can propel your business into the high-volume production space.

Electrical Cable Clips   upload to My Stratasys

The H350™ 3D printer utilizes SAF™ technology to produce consistent and accurate end-use parts for the automotive industry.