About
Welcome to Dimension Forge 3D!
We're your gateway to the exciting world of 3D printing, where creativity knows no bounds. Whether you're an entrepreneur, artist, or hobbyist our dedicated team is here to turn your ideas into reality.
What We Offer: Dimension Forge 3D provides a wide range of services, from single part production to large batch manufacturing. Our advanced technology and experienced team ensure precise, high-quality results for projects of all sizes.
Why Choose Us? We're not just a service, we're a supportive community. Collaboration and inclusivity are at the heart of what we do. Your success is our success, and we're excited to be part of your creative journey.
Get Started! Ready to explore the endless possibilities of 3D printing? Whether you're new to the game or a seasoned pro, we're here to help. Let's turn your visions into reality at Dimension Forge 3D. Join us today!
Our Materials
Unlock the power of 3D printing with Dimension Forge 3D! Our 3D printing technology enables you to bring your creative visions to life. Choose the material that's right for your project or idea.
Filaments
PLA
PLA filament is one of the most popular materials used in 3D printing, especially in the consumer and hobbyist markets. PLA stands for Polylactic Acid, a more Eco-friendly filament derived from renewable resources such as cornstarch or sugarcane. It has gained immense popularity due to its ease of use, affordability, and wide range of applications.
PETG
PETG is known for its high impact resistance, making it less prone to cracking or shattering compared to other filaments like ABS. This feature makes PETG filament an excellent choice for functional parts, mechanical components, and objects that require structural integrity.
ABS
ABS filament is a strong and impact-resistant material known for its toughness and ability to withstand higher temperatures. One of its standout features is its durability, which makes it suitable for long-term use in rugged environments. It also has a smooth finish, making it a favorite for post-processing like sanding or painting. ABS is commonly used for enclosures, phone cases, toys like LEGO bricks, and functional mechanical parts.
TPU
One of the key advantages of TPU filament is its flexibility. It has a high elongation at break, meaning it can stretch significantly before breaking. This property allows the filament to withstand bending, twisting, and compressive forces without deforming or cracking. TPU parts can be compressed, squeezed, or flexed repeatedly without losing their shape or structural integrity.
Resin
Standard
Standard resin is known for its ability to capture sharp details and create smooth, clean finishes. It's perfect for aesthetic models, miniatures, and prototypes where precision and visual appeal matter most. A cool feature is its ability to show fine textures and small features with clarity, making it a favorite for figurines, art, and presentation models.
Tough
Tough resin offers a unique mix of strength and slight flexibility, mimicking the feel of ABS plastic. It resists cracking under stress, making it great for parts that experience frequent handling or minor impacts. Its cool feature is its “snap-fit” ability—parts can be pressed together without breaking. Often used for functional prototypes, mechanical assemblies, and durable tools.
Flexible
Flexible resin behaves like rubber, bending and compressing easily without tearing. It offers high elongation and excellent tear resistance. One of its coolest features is its ability to return to shape after stretching or compressing. It’s commonly used for wearable tech, custom grips, seals, and gaskets—anywhere elasticity and comfort are important.
High Temperature Filaments
NYLON
Nylon is a high-performance filament that combines strength, flexibility, and wear resistance. It can absorb shock and stress without cracking, making it perfect for load-bearing and moving parts. One cool feature is its self-lubricating surface, which reduces friction—ideal for gears and hinges. Nylon is widely used in robotics, automotive components, and durable consumer products.
NYLON+Carbon Fiber
Nylon+CF delivers high strength, low weight, and excellent thermal and chemical resistance. It’s extremely rigid and wear resistant, making it ideal for drone frames, fixtures, machine parts, and high load functional components that need to withstand repeated mechanical stress.
PETG+Carbon Fiber
PETG+CF is a strong, rigid material that resists impact, moisture, and UV exposure. The added carbon fiber increases dimensional stability and stiffness, making it a solid choice for functional parts like brackets, structural components, and enclosures used in both indoor and outdoor settings.
PC-FR
PC-FR is a strong, flame-retardant polycarbonate with excellent impact and heat resistance. It’s UL94 V-0 rated, meaning it stops burning within 10 seconds and won’t drip flaming material. Ideal for electrical housings, automotive interiors, and aerospace parts where fire safety is essential.
PC+Carbon FIber
PC+CF is an ultra-rigid, high-strength material that can handle intense mechanical loads and elevated temperatures. It's ideal for aerospace and automotive parts, structural jigs, and production-grade prototypes that require a high strength-to-weight ratio and reliable long-term performance.
PC
Polycarbonate is a strong, impact-resistant material with excellent heat resistance and dimensional stability. It's well-suited for protective housings, mechanical parts, lighting components, and other applications where strength and thermal endurance are critical.
ASA
ASA offers excellent outdoor performance with strong resistance to UV radiation and weathering. It's widely used in automotive exterior parts, outdoor enclosures, and equipment housings that need to retain appearance and mechanical properties under sunlight and harsh environmental conditions.
ASA+Carbon Fiber
ASA+CF combines UV/weather resistance with increased stiffness and dimensional stability. It's ideal for structural outdoor parts, rugged fixtures, and components exposed to sunlight, temperature changes, and mechanical load, especially in automotive and industrial applications.
ABS+Carbon Fiber
ABS+CF offers excellent mechanical strength, heat resistance, and reduced warping. The carbon fiber reinforcement makes it more rigid and dimensionally stable, ideal for applications like automotive components, housings, and tool parts that require long term durability and vibration resistance.
Layer Hight
The layer height in 3D printing refers to the thickness of each individual layer of material that the printer lays down to build up a 3D object.
The height of each layer is the layer height.
A smaller layer height (like 0.15mm) results in finer detail and a smoother finish but takes longer to print.
A larger layer height (like 0.3mm) prints with less detail and a rougher surface but takes less time to print.
Choosing the right layer height (especially for larger models) depends on the quality of the print you want and the time you're willing to wait while we print it.
Infill %
Infill in 3D printing refers to the pattern and density of material inside the object that gives it strength and support.
The printer creates a pattern inside, which uses less material and reduces printing time.
A low infill (like 15%) is light and uses less material, perfect for decorative items.
A high infill (like 50% or more) makes the object stronger and heavier, ideal for functional parts that need to withstand stress.
Adjusting the infill allows you to very the strength, weight, and printing time.