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How Additive Manufacturing Is Transforming the Food & Beverage Industry

The Challenge on the Factory Floor

The food and beverage sector is one of the fastest-growing industries globally. However, growth does not come without growing pains. Manufacturers today face a perfect storm of challenges that threaten both profitability and operational continuity.

Rising Operational Costs

Energy prices, raw material costs, and logistics expenses continue to climb. Every minute of unplanned downtime translates directly into lost revenue. Traditional methods of sourcing replacement parts—often involving long lead times and expensive third-party suppliers—only add to the financial burden.

Labor Shortages

Finding and retaining skilled workers remains a persistent struggle. With fewer hands on the factory floor, manufacturers need smarter ways to maintain productivity without overburdening their existing teams. This is where additive manufacturing offers a clear advantage by reducing the need for complex, time-consuming manual processes.

Supply Chain Disruptions

Global supply chains remain unpredictable. Delays in shipping, geopolitical instability, and supplier consolidation mean that sourcing critical components can take weeks or even months. For a production line that depends on continuous operation, these delays are costly and frustrating.

The Consequences

When these challenges converge, the results are severe:

  • Expensive production downtime – Every hour of lost production impacts the bottom line.

  • Delays in sourcing critical replacement parts – Waiting for parts from distant suppliers slows everything down.

  • Difficulty maintaining both new and aging equipment – New machines require specialized components, while older equipment often has parts that are no longer manufactured.

Finding faster, more efficient solutions is not just a nice-to-have—it is essential for profitability and long-term growth. This is precisely why 3D printing for food and beverage production is gaining traction as a strategic investment rather than just a prototyping tool.

A Practical Solution: Additive Manufacturing

So, what does the solution look like? Additive manufacturing—commonly known as 3D printing—has evolved far beyond its early days of rapid prototyping. Today, it is a robust, production-ready technology that delivers tangible results on the factory floor.

On-Demand Production of Replacement Parts

Imagine this scenario: a critical part breaks on your packaging line. In the past, you would call a supplier, wait for a quote, endure weeks of lead time, and hope the part arrives before your downtime costs spiral out of control.

With additive manufacturing, that same part can be designed, printed, and installed within hours.

Common examples include:

  • Custom brackets for conveyor systems

  • Pushers used for diverting, sorting, and lane switching

  • Safety guards and ergonomic aids

  • End-of-arm tooling (EOAT) for robotic systems

Drastically Reduced Lead Times and Costs

The cost savings are substantial. By producing parts in-house, manufacturers can reduce the cost of custom tooling and maintenance, repair, and operations (MRO) parts by up to 90%. Lead times shrink from weeks to just a few hours. This speed means production lines get back up and running faster, minimizing costly interruptions.

Supporting Aging Equipment

One of the most underappreciated benefits of 3D printing for food and beverage production is its ability to breathe new life into aging equipment. Many factories operate machines that are decades old. As original equipment manufacturers (OEMs) update their product lines and discontinue support for older models, sourcing legacy parts becomes a nightmare.

Additive manufacturing solves this problem by enabling manufacturers to print these components themselves. No more hunting for obsolete parts or paying exorbitant prices for custom machining. This capability not only keeps production lines running but also extends the useful life of valuable capital equipment.

Real-World Impact

Consider a conveyor guide—a small but essential component that uses compressed air to transport products along the line. Traditionally, this part might take up to 12 weeks to source and produce. With additive manufacturing, it can be printed in a matter of hours or days, restoring the factory line to its original productivity almost immediately.

Building a Resilient and Sustainable Future

  • The benefits of integrating additive manufacturing go far beyond quick fixes and cost savings. This technology is helping food and beverage manufacturers build a more resilient, sustainable, and future-ready operation.

    Decentralizing Part Production

    By bringing part production in-house, manufacturers reduce their dependence on distant suppliers. This decentralization is a powerful hedge against supply chain disruptions. Instead of waiting for shipments that may be delayed or stuck in customs, you have the capability to produce what you need, when you need it.

    Reducing Environmental Impact

    Additive manufacturing also supports sustainability goals. Traditional manufacturing and logistics involve significant transportation, packaging, and material waste. By printing parts on-site, manufacturers can:

    • Minimize transportation-related carbon emissions

    • Reduce excess spending on materials and shipping

    • Decrease overall resource consumption

    This leaner approach contributes to a more efficient and environmentally responsible manufacturing process.

    Enhancing Operator Safety

    Safety is paramount in food and beverage production. Regulatory agencies impose substantial fines for safety violations, and more importantly, every accident affects employee wellbeing. Additive manufacturing empowers engineering and design teams to create custom safety solutions—such as guards that address pinch hazards or ergonomic tools that reduce strain on workers.

    Because 3D printing offers greater design flexibility than traditional methods, these safety components can be perfectly tailored to existing equipment. The result is a safer, more comfortable work environment that also reduces the risk of costly violations.

    A Strategic Advantage

    Ultimately, additive manufacturing provides a strategic advantage that extends across the entire organization:

    • More resilient operations – Less reliance on unpredictable supply chains

    • Cost-effective production – Lower costs for tooling, parts, and inventory

    • Responsive manufacturing – Agility to adapt quickly to new product lines or changing demands

    As automation and digital transformation accelerate across the industry, 3D printing for food and beverage production will become an increasingly essential tool for staying competitive.

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Why Partner with Projet ?

Selecting the right manufacturing technology is important—but choosing the right manufacturing partner is what truly drives success. Companies across the electronics, automotive, consumer products, aerospace, and medical industries trust Projet because we are more than just a supplier; we are a dedicated partner in their success.

Here’s what sets us apart:

A True One-Stop Solution

We provide a seamless experience by offering a comprehensive suite of manufacturing services under one roof. This integrated approach streamlines your supply chain and simplifies the journey from concept to a market-ready product.

Engineering Expertise You Can Count On

Our experienced engineering team acts as a dedicated extension of your own. We excel at solving complex manufacturing challenges and collaborate closely with you to optimize your designs for quality, cost-effectiveness, and manufacturability.

Flexible Production Volumes to Match Your Needs

Whether you require a single prototype or a high-volume production run, our manufacturing capabilities are designed to scale with your demands. We support your product’s entire lifecycle, from initial launch to full-scale production.

Rapid Turnaround for a Faster Time-to-Market

In today’s fast-paced market, speed is a crucial advantage. We deliver fast, transparent quotes and pride ourselves on our rapid turnaround times, helping you get your innovative products to market sooner.

3D Printing Services

Instant Price

PMMA Like Resin

PMMA Like clear resin has high transparency and anti-yellowing, suitable for high transparency applications in non-high temperature environments. The transparent resin has imitation acrylic, glass appearance.

Suitable for: SLA

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.05
  • Tensile Strength(MPa): 40
  • Flex Modulus(MPa): 40
  • Elongation(%): 32
  • Heat Distortion Temp(°C): –
  • Hardness Shore D: 78

Nylon12 Glass Fibre40 Blue-gray

This grey-blue composite nylon powder, enhanced with 40% glass beads, creates 3D-printed parts with exceptional stiffness and heat resistance. Powder reuse rate can reach up to 100%.

Suitable for: SLS

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 0.72
  • Tensile Strength(MPa): 46
  • Flex Modulus(MPa): 2,800
  • Elongation(%): –
  • Heat Distortion Temp(°C): 160
  • Hardness Shore D: –

Nylon 12 Glass Fibre 30

PA12GB30 is a high-performance material with excellent chemical, mechanical, and thermal properties, ideal for engineering applications. Compared to PA6, it absorbs significantly less moisture, preserving strength and shape in humid environments. With added glass fiber reinforcement, it offers enhanced durability, stiffness, and stability, making it a reliable choice for demanding conditions.

Suitable for: SLS

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.25
  • Tensile Strength(MPa): 62.6
  • Flex Modulus(MPa): 2,340
  • Elongation(%): 6.8
  • Heat Distortion Temp(°C): 160
  • Hardness Shore D: –

Rubber Like Resin

Rubber-like resin has a low tensile modulus and high elongation at break, making it well-suited for objects that will be bent or compressed.

Suitable for: SLA

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): –
  • Tensile Strength(MPa): 7.9
  • Flex Modulus(MPa): –
  • Elongation(%): 255.1
  • Heat Distortion Temp(°C): –
  • Hardness Shore D: 60-75

ABS Like Resin

ABS-like resin excels in high precision, providing a smooth surface quality with exquisite detail features. Known for its superior forming dimensional stability, this resin is ideal for the assembly and testing of various engineering models. Achieving a perfect balance between tensile strength and hardness, it prevents brittleness with its high elongation at break, ensuring resistance to breaking.

Suitable for: SLA

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.05-1.13
  • Tensile Strength(MPa): 42-62
  • Flex Modulus(MPa): 60-80
  • Elongation(%): 11-21
  • Heat Distortion Temp(°C): –
  • Hardness Shore D: 75-80

Nylon-Like Resin

Nylon-like resin is a high-strength material known for its excellent durability and long-term stability. It also boasts exceptional toughness and impact resistance.

Suitable for: SLA

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.05-1.15
  • Tensile Strength(MPa): 68
  • Flex Modulus(MPa): 35
  • Elongation(%): 15
  • Heat Distortion Temp(°C): –
  • Hardness Shore D: 75

Hard Tough Resin

This hard resin boasts higher toughness and impact resistance compared to standard ABS-like resin, making it exceptionally well-suited for mechanical prototypes.

Suitable for: SLA

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.08-1.12
  • Tensile Strength(MPa): 30-60
  • Flex Modulus(MPa): 30-75
  • Elongation(%): 35-52
  • Heat Distortion Temp(°C): 60
  • Hardness Shore D: 75-81

High Temp Resin

High Temp Resin is characterized by high hardness, strength, modulus, and precision. It exhibits resistance to prolonged heating at 120°C or boiling at 100°C, showcasing excellent mechanical properties, weather resistance, and temperature resistance.

Suitable for: SLA

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: NO

Material Property

  • Density(g/cm3): 1.09-1.10
  • Tensile Strength(MPa): 70-85
  • Flex Modulus(MPa): 95-105
  • Elongation(%): 35-40
  • Heat Distortion Temp(°C): 100.5
  • Hardness Shore D: 82-84

General Resin

General resin, known for its high rigidity, proves to be a versatile material ideal for both functional testing and rapid prototype.

Suitable for: SLA

Application

  • Prototype

Application Fields

  • Aerospace: NO
  • Automotive: YES
  • Industrial Machinery: NO
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: NO
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.08-1.13
  • Tensile Strength(MPa): 46-67
  • Flex Modulus(MPa): 46-72
  • Elongation(%): 28-36
  • Heat Distortion Temp(°C): –
  • Hardness Shore D: 78-82

Ultem1010 PEI (Polyetherimide)

PEI is a high-performance industrial-grade thermoplastic known for its strength, durability, and low flammability. This versatile material finds applications in various industries, including automotive, aerospace, medicine, and dentistry.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: NO
  • Automation: YES
  • Medical: NO
  • Education Community: NO

Material Property

  • Density(g/cm3): 1.27
  • Tensile Strength(MPa): 90
  • Flex Modulus(MPa): 3427
  • Elongation(%): 3.3
  • Heat Distortion Temp(°C): 207
  • Hardness Shore D: –

Ultem9085 PEI (Polyetherimide)

PEI is a high-performance industrial-grade thermoplastic known for its strength, durability, and low flammability. This versatile material finds applications in various industries, including automotive, aerospace, medicine, and dentistry.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: NO
  • Automation: YES
  • Medical: NO
  • Education Community: NO

Material Property

  • Density(g/cm3): 1.34
  • Tensile Strength(MPa): 86
  • Flex Modulus(MPa): 2340
  • Elongation(%): 4
  • Heat Distortion Temp(°C): 150
  • Hardness Shore D: –

PEEK (Polyether ether ketone)

PEEK (polyetheretherketone) is a high-performance semi-crystalline industrial thermoplastic known for its exceptional resistance to harsh chemicals, minimal moisture absorption, excellent fire performance, superior mechanical strength over a wide temperature range, and reliable dimensional stability.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.29
  • Tensile Strength(MPa): 100
  • Flex Modulus(MPa): 4200
  • Elongation(%): 40
  • Heat Distortion Temp(°C): 140
  • Hardness Shore D: –

PET-CF (Carbon fiber reinforced polyethylene terephthalate)

PET-CF emerges as a superior choice over nylon for printing functional parts in high-humidity environments. Its high-temperature resistance and minimal warping make it ideal for crafting mechanical assembly parts, including automotive accessories and fixtures. In comparison to PETG-CF, PET-CF contains a higher concentration of carbon fibre, resulting in significantly greater strength and high temperature resistance.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.29
  • Tensile Strength(MPa): 131
  • Flex Modulus(MPa): 5320
  • Elongation(%): 1.2
  • Heat Distortion Temp(°C): 205
  • Hardness Shore D: –

PAHT-CF (High temperature polyamide carbon fiber reinforced)

A composite of PA and carbon fibre, merges the low water absorption advantage of PA with the high-performance attributes of carbon fibre. This combination yields excellent mechanical and thermal properties that remain robust even in wet conditions. PA+CF is prized for its outstanding chemical resistance, low moisture absorption, and versatile processing capabilities.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.06
  • Tensile Strength(MPa): 125
  • Flex Modulus(MPa): 4230
  • Elongation(%): 1.8
  • Heat Distortion Temp(°C): 194
  • Hardness Shore D: –

PLA-CF (Carbon fiber reinforced polylactic acid)

Carbon fibber reinforced PLA, stands out for its remarkable increase in stiffness and strength. This cutting-edge bio-polymer, when combined with recycled carbon fibber reinforcement, results in a higher mechanical properties

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.22
  • Tensile Strength(MPa): 89
  • Flex Modulus(MPa): 3950
  • Elongation(%): 3.2
  • Heat Distortion Temp(°C): 55
  • Hardness Shore D: –

ESD-safe (Electrostatic discharge)

It exhibits excellent antistatic performance, making it particularly suitable for fields that require ESD protection.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.08-1.11
  • Tensile Strength(MPa): 55
  • Flex Modulus(MPa): 2300
  • Elongation(%): 5
  • Heat Distortion Temp(°C): 95
  • Surface Resistance: 107 and 109 ohms Ω

UL 94-V0

It possesses higher mechanical properties and is halogen-free, environmentally friendly, and flame retardant, achieving a UL94V-0 level flame retardancy. This makes the product more fireproof and safer.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: NO
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.05
  • Tensile Strength(MPa): 35
  • Flex Modulus(MPa): 2280
  • Elongation(%): 10
  • Heat Distortion Temp(°C): 100
  • Hardness Shore D: –

ASA (Acrylonitrile styrene acrylate)

ASA shares excellent mechanical properties with ABS but offers additional benefits. It is more resistant to ultraviolet rays and harsh weather conditions, making it particularly suitable for outdoor use. ASA boasts strong toughness, rigidity, and high impact resistance.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: NO
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: NO
  • Education Community: YES

Material Property

  • Density(g/cm3): 1
  • Tensile Strength(MPa): 45
  • Flex Modulus(MPa): 1900
  • Elongation(%): 30
  • Heat Distortion Temp(°C): 86
  • Hardness Shore D: –

PP (Polypropylene)

Polypropylene (PP) is a popular material in 3D printing, valued for its versatility, strength, and chemical resistance. This lightweight and flexible plastic stands up well to acids, bases, and organic solvents, making it suitable for a range of applications. Additionally, PP is considered food-safe, though standard 3D printing food safety guidelines should still be followed.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.05
  • Tensile Strength(MPa): 26
  • Flex Modulus(MPa): 1200
  • Elongation(%): 30
  • Heat Distortion Temp(°C): 60-80
  • Hardness Shore D: –

PC (Polycarbonates)

PC is a high-performance material known for its toughness, heat resistance, dimensional stability, and high optical clarity. It exhibits excellent mechanical properties, high toughness, and impact resistance, making it stable and durable. Additionally, PC offers impressive temperature resistance, with a heat distortion temperature up to 80 ℃.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.21
  • Tensile Strength(MPa): 54
  • Flex Modulus(MPa): 1073
  • Elongation(%): 150
  • Heat Distortion Temp(°C): 80
  • Hardness Shore D: –

Nylon / PA (Polyamide)

Nylon is a versatile material known for its good flexibility, wear resistance, and high strength-to-weight ratio. PA12, in particular, exhibits high toughness and impact resistance.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.21
  • Tensile Strength(MPa): 50
  • Flex Modulus(MPa): 659
  • Elongation(%): 165
  • Heat Distortion Temp(°C): 100
  • Hardness Shore D: –

HIPS

HIPS is a multifunctional material. It shares many mechanical properties with ABS plastic, but as the name suggests, it has a much higher resistance to impact. This added strength makes HIPS an excellent choice for creating durable 3D-printed parts that can withstand everyday wear and tear.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.04
  • Tensile Strength(MPa): 40
  • Flex Modulus(MPa): 1600
  • Elongation(%): 18
  • Heat Distortion Temp(°C): 80
  • Hardness Shore D: –

TPU (Thermoplastic polyurethane)

TPU material is renowned for its excellent flexibility, high elasticity, tear resistance, wear resistance, cut resistance, sturdiness, and durability.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: NO
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: NO
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.21
  • Tensile Strength(MPa): 35
  • Flex Modulus(MPa): –
  • Elongation(%): ≥800
  • Heat Distortion Temp(°C): –
  • Hardness Shore D: 95A

PETG (Polyethylene terephthalate glycol)

PETG is a robust material known for its odor neutrality and ease of printing. These characteristics, combined with high impact strength, flexibility, low shrinkage, water resistance, chemical resistance, and high toughness, make PETG an excellent choice for a variety of applications.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: NO
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: YES
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.27
  • Tensile Strength(MPa): 52
  • Flex Modulus(MPa): 1073
  • Elongation(%): 83
  • Heat Distortion Temp(°C): 64
  • Hardness Shore D: –

ABS (Acrylonitrile butadiene styrene)

ABS is a lightweight material known for its high impact resistance. These characteristics, coupled with a high heat deflection temperature, render ABS suitable for a wide range of applications and environments.

Suitable for: FDM

Application

  • Prototype
  • End-User part

Application Fields

  • Aerospace: YES
  • Automotive: YES
  • Industrial Machinery: YES
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: NO
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.06
  • Tensile Strength(MPa): 40
  • Flex Modulus(MPa): 1203
  • Elongation(%): 30
  • Heat Distortion Temp(°C): 73
  • Hardness Shore D: –

PLA (Polylactic acid)

PLA is an environmentally friendly biopolymer-based material that is both stiff and easy to print. It is available in a wide variety of colours.

Suitable for: FDM

Application

  • Prototype

Application Fields

  • Aerospace: NO
  • Automotive: YES
  • Industrial Machinery: NO
  • Consumer Electronics: YES
  • Automation: YES
  • Medical: NO
  • Education Community: YES

Material Property

  • Density(g/cm3): 1.23
  • Tensile Strength(MPa): 60
  • Flex Modulus(MPa): 1973
  • Elongation(%): 20
  • Heat Distortion Temp(°C): 40
  • Hardness Shore D: –