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Medical Lean Manufacturing with SOLIDWORKS & Stratasys 3D Printer

Acist (Advanced Contrast Imaging System Technology) is a medical-device company that specializes in developing contrast injection systems in the fields of cardiology and radiology. Acist’s devices infuse dye into the vascular system, letting physicians visualize anatomies.

Acist uses SOLIDWORKS and Stratasys’ FDM (Fused Deposition Modeling) technology for Lean Manufacturing, to maximize efficiency beyond rapid prototyping alone. According to Dave Scott, manufacturing engineering manager at Acist: “We haven’t picked a single path for FDM. We like to use it everywhere. We use it for fixtures, functional testing, industrial design and end-use parts. We want to use as many FDM parts as possible in our machines that are going to market. FDM allows for putting greater complexity, form and function into one part as opposed to traditional methods.”

Solving Design Problems

Acist stays in communication with its machine’s operators, because some improvements aren’t conceived until a machine is used in the hospital. For example, operators pointed out the need for multiple types of transducers to be connected to the same machine along with the ability to switch rapidly from one transducer to another. Acist quickly designed a part in SOLIDWORKS software to solve this problem, and printed it with an FDM Technology 3D Printer as a functional part to be shipped and used on machines worldwide. Acist emphasizes that the part, easy to create and print with FDM, would have been very challenging to mold using traditional methods.

“We use Stratasys FDM for fixtures, functional testing, industrial design, and manufacturing end-use parts in small production runs.”

Design for Lean Manufacturing

Acist recently updated its EmpowerCTA® injection system, a lower-pressure injector. Thirty-six parts went into the new EmpowerCTA display, seven of which were FDM parts included in the marketed system. The product’s FDM casing is as attractive as a molded case. FDM Technology enabled Acist to design for manufacturing in a new way by combining parts and building in additional complexity.

Lean Manufacturing of the EmpowerCTA display created with FDM parts

EmpowerCTA display created with FDM parts

This approach would have been impossible with traditional manufacturing methods like injection molding. Specifically, if Acist hadn’t used FDM’s additive manufacturing method, the seven parts that now complete the display would have been 15 — more than double the parts to manufacture and stock. Acist designed the FDM parts around the machined parts, circuit boards and integrated circuits to optimize design for manufacturing ability. A solid, tested design is important before moving on to mold and machine parts. FDM lets Acist produce small runs and get feedback from operators before committing to expensive production molds.

FDM Printed Part used for testing

FDM Printed Part used for testing

Reducing inventory with on demand 3D printing

With FDM, Acist’s inventory is a digital file on a server. The company doesn’t have to manage shelf space or relationships with vendors. If an FDM part breaks — even five years later — Acist simply prints a replacement on its Fortus 3D Production System and ships it the next day. Scott calls FDM “the ultimate lean technology.”

Acist Medical Systems continues to explore how FDM can help it improve it’s creativity and efficiency, and lower costs as part of their lean manufacturing strategy. No other method can handle the complex geometry and immediately produce ready-for-market parts. The technology has helped Acist stay on the cutting edge of the medical industry.

“FDM is saving us time and money everywhere in our operations. We have invested so much in this technology; we really live by it. There are so many benefits to using FDM parts, but it has to become a mindset”

FEATURED TECHNOLOGY:

FDM 3D Printing

Fused Deposition Modeling (FDM) Technology is a powerful Stratasys-patented additive manufacturing method.

FDM builds concept models, functional prototypes and end-use parts in standard, engineering-grade and high-performance thermoplastics. It’s the only professional 3D printing technology that uses production-grade thermoplastics, so parts are unrivaled in mechanical, thermal and chemical strength.

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