FDM 3D printing is one of the most widely used additive manufacturing technologies for industrial prototyping, tooling, and low-volume production. Such industries including automotive, aerospace, medical, and consumer products manufacturers are all taking advantage of fused deposition modeling services in order to decrease product development cost, shorten product design validation cycles, and provide customized rigid thermoplastic parts with better adaptability.

In this article we take a look at the top industrial applications, commonly used FDM 3D printing materials, and the reasons behind the continuous investment of the businesses in industrial 3D printing technologies, specifically in fast prototyping, tooling, and production assistance applications.

Industrial Applications of FDM 3D Printing

1. FDM 3D printing in Rapid prototyping and Product Development

Rapid prototyping is one of the most important industrial applications of FDM 3D printing technology. In the manufacturing industry companies use FDM printers for rapidly producing prototypes of CAD models to carry out functional testing, design verification, engineering analysis, before proceeding with the full-scale production.

Advantages of FDM Rapid Prototyping:

• Increased speed in design validation and engineering analysis

• Decreased cost of product development

• Simplified modification of the design and iteration

• Functional prototyping of product before production

• Reduced development time to market

2. FDM 3D Printing applications in Automotive Industry

Automotive companies use industrial FDM 3D printing to prototype vehicle’s dashboard, air ducts, assembly jigs and fixtures, lightweight housings, functional test components etc.

 Most popular uses in automotive industry:

• Prototyping of car’s internal dashboard

• Air ducts, Lightweight housings

• Making of functional test pieces

• Manufacturing jigs and fixtures

• Workholding and Assembly Jigs/Fixtures

3. Aerospace and Aviation Components

Aerospace manufacturers require lightweight structures and dimensional accuracy,while using high-performance thermoplastic materials for component manufacturing. Aerospace parts includes:

• Fabrication of cabin interior parts

• Rapid manufacturing of light structures prototype

• Rapid prototyping of tooling and assembly aids

• Engineering design and fabrication of ventilation ducts

• Rapid prototyping of engineering test models

4. Industrial Tooling and Manufacturing Aids

FDM 3D printing is widely used to manufacture jigs, fixtures, robotic end-effectors, and custom assembly tooling for industrial production. Those customized tooling and jigs reduce cost of production by allowing accurate part fabrication at a very low manufacturing cost. Manufacturing application includes:

• Checking gauges

• Robotic End-Effectors

• Ergonomically shaped handheld tools

• Assembly fixtures

• Packaging templates

5. Healthcare and Medical Industry Solutions

In the healthcare sector, FDM 3D printing is being applied to manufacture anatomical models, prosthetics, pre-operative surgical planning models and prototypes of medical devices. Healthcare providers and medical device manufacturers use FDM 3D printing to produce patient-specific anatomical models, prosthetics, and medical device prototypes.

Some widely used applications of FDM 3D printing in the healthcare sector are:

• Pre-operative anatomical model for surgical planning

• Orthopedic prototype

• Prosthetic device prototypes

•  Enclosures of medical devices

• Training and education model

6. Consumer Product Manufacturing

In the consumer product manufacturing sector, FDM 3D printing is employed in the prototyping of packages, ergonomic testing and the low-volume custom product production. 3D Printing technology has been used in the development and testing process to optimize the design and function of a product prior to mass production.

Some typical applications of FDM 3D printing in consumer product manufacturing are:

• Product concept models

• Package prototype

• Wearable device component production

• Functional test components

• Low-volume product production

Final Thoughts

The industrial utilization of FDM 3D printing is continuously increasing, as companies seek to benefit from faster, adaptable and less expensive manufacturing processes. Ranging across various industries, including automotive and aerospace engineering, healthcare, and consumer goods production, FDM has been helping companies enhance their productivity, fast-track new product development and launch products to market, quickly, with reliable fused deposition modeling services. Contact Norck for personalized solutions in additive manufacturing.

FAQs (Frequently Asked Questions)

1. Which industries use FDM 3D Printing? 

Automotive, aerospace, health, consumer products and industrial manufacturing uses FDM 3D printing for prototypes, tools, and low-volume end-use parts.

2. Is FDM suitable for industrial manufacturing?

Yes, in the field of industrial 3D printing, FDM is typically applied for the prototyping of functional parts and manufacture of low volume parts for final use, tooling, jig and fixture.

3. Which kind of materials are applicable for FDM?

In FDM, the commonly used materials are ABS, PLA, PETG, Nylon, TPU, Carbon Fiber Nylon, and ULTEM for industrial end use.