Advanced Plastic filament – Dev https://dev.additiveplus.com Mon, 28 Jul 2025 12:13:49 +0000 en-US hourly 1 https://wordpress.org/?v=6.8.5 https://dev.additiveplus.com/wp-content/uploads/cropped-AdditivePlus-Logo-Vertical-Dark-32x32.png Advanced Plastic filament – Dev https://dev.additiveplus.com 32 32 shopengine_activated_templates a:1:{s:6:"single";a:1:{s:4:"lang";a:1:{s:2:"en";a:1:{i:7;a:3:{s:11:"template_id";i:53939;s:6:"status";b:1;s:11:"category_id";s:3:"912";}}}}} Kings 3D FDM 3D Printer 3040 https://dev.additiveplus.com/product/kings-3d-fdm-3d-printer-3040/ Wed, 22 Jan 2025 14:44:56 +0000 https://dev.additiveplus.com/?post_type=product&p=59442 Precision Versatility for All Your Printing Needs

 

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The Kings FDM 3D Printer 3040: Precision Meets Versatility

Discover the power of innovation with the Kings FDM 3D Printer 3040, a cutting-edge solution tailored for both hobbyists and professionals alike. This reliable and efficient printer is engineered for precision, boasting a generous printing size of 300 x 300 x 400 mm, allowing you to bring your most ambitious projects to life. With compact dimensions of 530 x 520 x 825 mm, it fits seamlessly into any workspace without sacrificing functionality.

key specifications

  • Exceptional Build Quality
    Weighing over 48 kg, the Kings 3040 is designed with stability and durability in mind. Its robust construction ensures consistent performance across a variety of 3D printing applications. Whether you’re prototyping intricate designs, creating custom manufacturing solutions, or embarking on educational projects, this printer stands ready to meet your needs.

 

  • Advanced Features for Superior Performance
    Equipped with a Klipper high-speed system, the Kings 3040 offers rapid printing speeds without compromising quality. The user-friendly 5-inch HD capacitive touchscreen interface simplifies operation, allowing you to focus on creativity rather than technicalities.

    The printer features industrial-grade linear guides for the XY axis, ensuring smooth and precise movements. Powered by Leadshine high-precision servo motors with a closed-loop drive system, you can expect enhanced accuracy and reliability. The dual Z-axis synchronized integrated leadscrews further contribute to its exceptional stability during operation.

    For optimal filament handling, the Kings 3040 incorporates BMG dual gears, providing superior extrusion performance. Coupled with a powerful 70W heating rod and Volcano nozzle extruder, this printer is designed for high-speed printing, enabling you to complete your projects in record time.

 

  • Thoughtful Design for Easy Use
    The independent silicone heated bed ensures uniform heat distribution, while the 12mm aluminum and detachable magnetic steel platform provide a flat surface for impeccable print quality. This thoughtful design not only enhances performance but also makes model removal effortless.
key-benefit-12

Prototyping

Additive-Plus_DMLS-industry-2

Custom Manufacturing

Additive-Plus-industry-2

Educational Projects

Clean-Support-Removal

Art and Design

Additive-Plus_DMLS-industry-4

Architectural Models

FEATURES

  • Klipper High-Speed System:  
    Utilize the power of advanced Klipper firmware to optimize both printing speed and quality. By utilizing precise kinematics and faster processing, this system allows for rapid production without compromising the details and aesthetics of your prints. The firmware’s adaptability improves overall workflow and efficiency.
  • 7-Inch HD Capacitive Touchscreen:  
    Navigate effortlessly through the user-friendly interface provided by a vibrant, high-definition touchscreen. The screen offers clear visibility, enabling you to manage print settings with ease and interact with various features intuitively.
  • Industrial-Grade Linear Guides for XY Axis:  
    Experience high precision and stability during printing. The linear guides reduce friction and increase durability, resulting in smoother movements that lead to fine details and accuracy in every print layer.
  • Leadshine High-Precision Servo Motors for XY Axis:  
    Engineered with a closed-loop drive system, these motors provide superior accuracy and responsiveness. They minimize errors and enhance print quality by dynamically adjusting performance based on real-time feedback, ensuring reliable and consistent output.
  • Dual Z-Axis Synchronized Integrated Leadscrews:  
    This innovative feature ensures stability and consistency in the vertical axis. By coordinating movements among two leadscrews, wobble during printing is significantly reduced, leading to impeccable layer deposition and superior build quality.
  • BMG Dual Gears:  
    Employing a robust dual gear system enhances filament feeding, guaranteeing excellent grip and consistent extrusion of various materials. This technology allows you to print with flexible materials and complex filaments without the worry of clogs or jams.
  • 70W High-Power Heating Rod Volcano Nozzle Extruder:  
    Designed for high-speed and efficient printing, this extruder allows for rapid heating and improved material flow. > Валерия Смородская: Its versatility accommodates a wide range of filament types, making it ideal for both standard and advanced applications.
  • Internal Temperatures Up to 60°C:  
    Built to handle high-temperature materials, this feature expands your design possibilities and ensures high adhesion during prints. Whether printing engineering-grade plastics or specialized composites, the Kings 3D FDM Printer 5060 delivers unmatched performance.

TECHNOLOGY

FMD-Technology-Slide
Technology-1

Fused Filament Fabrication (FFF) is a popular 3D printing technology that creates objects layer by layer using thermoplastic materials.

1. Material Feed: FFF printers use filament, which is a long strand of thermoplastic material, typically available in 1.75 mm or 2.85 mm diameters. Common materials include PLA, ABS, PETG, and TPU.

2. Heating Element: The filament is fed into a heated nozzle where it is melted. The temperature of the nozzle is carefully controlled to ensure the filament reaches its melting point without degrading.

3. Extrusion: Once melted, the filament is extruded through the nozzle onto the build platform in a precise pattern determined by the 3D model. The printer moves in both the X and Y axes to create the desired shape.

4. Layering: After each layer is printed, the build platform lowers (or the nozzle raises) by a specific height, typically between 0.1 mm to 0.3 mm, depending on the desired resolution. The next layer is then printed on top of the previous one, allowing for complex geometries and designs.

5. Cooling: As each layer is deposited, it cools and solidifies, bonding with the layers below it. Some printers have cooling fans to help speed up this process, especially for materials that require rapid cooling.

MATERIALS

The Kings 3040 is versatile in its compatibility with various materials. It is highly recommended for use with PLA (an eco-friendly and non-toxic option), ABS, and other standard 1.75mm diameter 3D printing filaments, giving you the freedom to choose the best material for your project.

The post Kings 3D FDM 3D Printer 3040 appeared first on Dev.

]]> Kings 3D FDM Printer 5060 https://dev.additiveplus.com/product/kings-3d-fdm-printer-5060/ Wed, 22 Jan 2025 13:53:53 +0000 https://dev.additiveplus.com/?post_type=product&p=59422 High Precision FFF 3D Printing Solution

 

The post Kings 3D FDM Printer 5060 appeared first on Dev.

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Introducing the Kings 3D FDM Printer 5060, a cutting-edge 3D printing solution engineered for professionals and enthusiasts alike. This exceptional printer features a vast printing size of 500x500x600mm, making it ideal for ambitious projects that demand innovative designs and precision. Whether you’re working on intricate prototypes or large-scale components, the Kings 3D FDM Printer 5060 combines superior technology and user-centric design to deliver outstanding results at impressive speeds.

key specifications

  • Printing Size: 500mm x 500mm x 600mm
    This ample build volume allows you to create larger models in a single run, reducing the need for assembly and improving the overall quality of your prints. From architectural models to engineering prototypes, the Kings 3D FDM Printer 5060 accommodates diverse project requirements.
  • Machine Size: 670mm x 720mm x 1230mm. The compact yet robust structure of the machine ensures stability and durability while fitting seamlessly into your workspace. Its thoughtful dimensions maximize the user’s convenience without sacrificing performance.
  • Printing Speed: Ranges from 30mm/s to an impressive 350mm/s. Achieve rapid turnover for large prints or intricate designs with adjustable print speeds that can be tailored to your specific project needs. The printer’s high-speed capabilities significantly reduce production time and enhance productivity.
  • Nozzle Temperature: Capable of reaching up to 320°C. This high-temperature capability allows you to print with advanced materials that require higher melting points, broadening the creative possibilities for your projects.
  • Number of Nozzles: 1. A single high-performance nozzle simplifies the print head assembly, ensuring clear and efficient filament flow for consistent quality.
  • Printing Color: Single Color. While designed for single-color printing, the Kings 3D FDM Printer 5060 can achieve intricate designs using diverse material properties and finishes.

FEATURES

  • Klipper High-Speed System:  
    Utilize the power of advanced Klipper firmware to optimize both printing speed and quality. By utilizing precise kinematics and faster processing, this system allows for rapid production without compromising the details and aesthetics of your prints. The firmware’s adaptability improves overall workflow and efficiency.
  • 7-Inch HD Capacitive Touchscreen:  
    Navigate effortlessly through the user-friendly interface provided by a vibrant, high-definition touchscreen. The screen offers clear visibility, enabling you to manage print settings with ease and interact with various features intuitively.
  • Industrial-Grade Linear Guides for XY Axis:  
    Experience high precision and stability during printing. The linear guides reduce friction and increase durability, resulting in smoother movements that lead to fine details and accuracy in every print layer.
  • Leadshine High-Precision Servo Motors for XY Axis:  
    Engineered with a closed-loop drive system, these motors provide superior accuracy and responsiveness. They minimize errors and enhance print quality by dynamically adjusting performance based on real-time feedback, ensuring reliable and consistent output.
  • Dual Z-Axis Synchronized Integrated Leadscrews:  
    This innovative feature ensures stability and consistency in the vertical axis. By coordinating movements among two leadscrews, wobble during printing is significantly reduced, leading to impeccable layer deposition and superior build quality.
  • BMG Dual Gears:  
    Employing a robust dual gear system enhances filament feeding, guaranteeing excellent grip and consistent extrusion of various materials. This technology allows you to print with flexible materials and complex filaments without the worry of clogs or jams.
  • 70W High-Power Heating Rod Volcano Nozzle Extruder:  
    Designed for high-speed and efficient printing, this extruder allows for rapid heating and improved material flow. > Валерия Смородская: Its versatility accommodates a wide range of filament types, making it ideal for both standard and advanced applications.
  • Internal Temperatures Up to 60°C:  
    Built to handle high-temperature materials, this feature expands your design possibilities and ensures high adhesion during prints. Whether printing engineering-grade plastics or specialized composites, the Kings 3D FDM Printer 5060 delivers unmatched performance.

TECHNOLOGY

FMD-Technology-Slide
Technology-1

Fused Filament Fabrication (FFF) is a popular 3D printing technology that creates objects layer by layer using thermoplastic materials.

1. Material Feed: FFF printers use filament, which is a long strand of thermoplastic material, typically available in 1.75 mm or 2.85 mm diameters. Common materials include PLA, ABS, PETG, and TPU.

2. Heating Element: The filament is fed into a heated nozzle where it is melted. The temperature of the nozzle is carefully controlled to ensure the filament reaches its melting point without degrading.

3. Extrusion: Once melted, the filament is extruded through the nozzle onto the build platform in a precise pattern determined by the 3D model. The printer moves in both the X and Y axes to create the desired shape.

4. Layering: After each layer is printed, the build platform lowers (or the nozzle raises) by a specific height, typically between 0.1 mm to 0.3 mm, depending on the desired resolution. The next layer is then printed on top of the previous one, allowing for complex geometries and designs.

5. Cooling: As each layer is deposited, it cools and solidifies, bonding with the layers below it. Some printers have cooling fans to help speed up this process, especially for materials that require rapid cooling.

MATERIALS

The Kings 3D FDM Printer 5060 is compatible with a variety of standard 1.75mm diameter 3D printing materials, including:

  • PLA: Renowned for its eco-friendly, non-toxic properties, PLA is easy to print with and ideal for prototypes and models.
  • TPU: A flexible material perfect for creating parts that require elasticity and resilience, such as phone cases and wearable items.
  • Carbon Fiber: Combined with other materials, carbon fiber enhances strength and durability, making it perfect for functional parts and high-stress applications.
  • ASA: Excellent for outdoor applications due to its UV-resistance; it maintains mechanical properties and color stability in harsh conditions.
  • ABS: A versatile material known for its strength and durability, making it suitable for a variety of engineering applications.
  • PETG: Offers a balance of strength and flexibility, great for both functional parts and visually appealing models.
  • Nylon: Known for its toughness, nylon is perfect for parts that require high strength and wear resistance.

Whether creating intricate designs, functional prototypes, or large-scale components, the Kings 3D FDM Printer 5060 is built to meet diverse printing requirements effectively.

The post Kings 3D FDM Printer 5060 appeared first on Dev.

]]> Kings FDM 3D Printer 1000 https://dev.additiveplus.com/product/kings-fdm-3d-printer-1000/ Sat, 28 Dec 2024 09:46:36 +0000 https://dev.additiveplus.com/?post_type=product&p=58942 An industrial-grade FFF printer designed for large-scale, precise printing.

 

The post Kings FDM 3D Printer 1000 appeared first on Dev.

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Introducing the Kings FDM 3D Printer M1000, a powerhouse in industrial-grade 3D printing designed for those who require precision and scalability. With an impressive build volume of 1000 x 1000 x 1000 mm, this printer offers unparalleled versatility, making it suitable for a wide range of applications—from prototyping to large-scale production.

Equipped with cutting-edge Klipper systems, the M1000 leverages advanced technology to enhance performance. Its closed-loop servo motors and high-precision linear modules work in tandem to deliver fast, accurate, and stable printing results, ensuring that every project meets the highest standards of quality.

The robust construction of the M1000 is designed to withstand the rigors of demanding printing tasks. It features a custom ball screw mechanism that contributes to its reliability and precision. The 12mm aluminum plate platform is engineered to support up to 80 kg, allowing you to work with a variety of materials without compromising stability. Additionally, the independent material storage box streamlines your workflow, making it easier to manage multiple filament types for diverse projects.

Whether you’re an engineer, designer, or manufacturer, the Kings FDM 3D Printer M1000 is your go-to solution for achieving exceptional results in large-scale 3D printing. Experience the future of printing technology with the M1000—where innovation meets functionality.

FEATURES

  • Klipper High-Speed System
  • Closed-Loop Servo Motor
  • Linear Industrial Module
  • Extra-Large Print Size: 1000*1000*1000mm
  • Fast Printing Speed, Up to 500mm/s
  • Stable Printing
  • Custom Ball Screw, 12mm
  • Aluminum Plate Platform with a Maximum Load of Over 80kg
  • Independent Material
  • Storage Box

TECHNOLOGY

Technology-1


Fused Filament Fabrication (FFF) is a popular 3D printing technology that creates objects layer by layer using thermoplastic materials.

1. Material Feed: FFF printers use filament, which is a long strand of thermoplastic material, typically available in 1.75 mm or 2.85 mm diameters. Common materials include PLA, ABS, PETG, and TPU.

2. Heating Element: The filament is fed into a heated nozzle where it is melted. The temperature of the nozzle is carefully controlled to ensure the filament reaches its melting point without degrading.

3. Extrusion: Once melted, the filament is extruded through the nozzle onto the build platform in a precise pattern determined by the 3D model. The printer moves in both the X and Y axes to create the desired shape.

4. Layering: After each layer is printed, the build platform lowers (or the nozzle raises) by a specific height, typically between 0.1 mm to 0.3 mm, depending on the desired resolution. The next layer is then printed on top of the previous one, allowing for complex geometries and designs.

5. Cooling: As each layer is deposited, it cools and solidifies, bonding with the layers below it. Some printers have cooling fans to help speed up this process, especially for materials that require rapid cooling.

The post Kings FDM 3D Printer 1000 appeared first on Dev.

]]> COMPOSER A3 FFF 3D Printer https://dev.additiveplus.com/product/composer-a3-fff-3d-printer-copy-2/ Tue, 30 Apr 2024 13:05:16 +0000 https://dev.additiveplus.com/?post_type=product&p=35471 Desktop FFF 3D printer for easy parts manufacturing of optimal composites with continuous fiber reinforcement.

The post COMPOSER A3 FFF 3D Printer appeared first on Dev.

]]>

The COMPOSER A3 FFF 3D printer is a desktop  hardware designed for producing anisoprinted composite parts of continuous fiber reinforced polymers. This printer provides easier and faster parts manufacturing process, stronger, lighter and cheaper than of metal or non-optimal composites. Aerospace, automotive, manufacturing, robotics, high-performance mobility, healthcare industries can benefit using anisoprinting with the COMPOSER A3.

DESKTOP HARDWARE

  • 18.1×11.6×8.2in / 460×297×210mm build volume
  • 28.3×24.8×19.2in / 720×630×490mm overall dimensions
  • Dual nozzle print head with FFF and CFC extruders
  • Max. print head temperature up to 270 °C  
  • Ethernet, WiFi, USB-type B, SD-card slot data transfer interfaces
 
 

MATERIALS

  • Continuous fiber reinforced composites ×30 stronger than pure plastic, ×7 lighter than steel, ×2 stronger & lighter than aluminum
  • Compatible plastics: PLA, PETG, PA, PC, ABS, TPU, etc. with up to 270 °C processing temperature 
  • Reinforcing: Composite Basalt Fiber (CBF) and Composite Carbon Fiber (CCF)
  • Composite Fiber Co-extrusion technology

3D SLICER AURA SOFTWARE

  • For FFF and CFC printers
  • Support for STL and CAD formats (.stp, .3ds, .obj)
  • Model saved on a local PC
  • G-code generalization, geometry view
  • Separate printers, plastics and profiles setting and combining
  • A set of verified printing profiles for certain plastic filaments
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COMPOSER A3 DESKTOP FFF 3D PRINTER ADVANTAGES

The COMPOSER A3 FFF 3D printer is a turnkey desktop continuous fiber reinforced 3D printing solution for producing anisoprinted composite parts. Stronger, lighter and cheaper than metal or non-optimal composites.

 

2-4

QUICK START WITH ANISOPRINT SUPPORT

You can quickly master anisoprinting basics with the Composer A3 printer using Anisoprint support, including a Quick Start Guide, Hardware Guide, User Guide, as well as a Troubleshooting section and firmware update options. Available at anisoprint.com/support.

DAY

CUSTOMIZED ANISOPRINT AURA SOFTWARE

Anisoprint has developed specialized Aura slicer software applicable to both continuous fiber 3D printing with proprietary Composer CFC-printers and conventional FFF-printing. Aura prepares a 3D model, generates reinforcing fiber trajectories in each layer and allows to adjust reinforcement scheme to obtain strong and lightweight parts.

3-2

STRONGER, LIGHTER AND CHEAPER

With the Composer A3 you get a bi-matrix composite part of any shape, without tools or molds, without machining and post-processing. Up to 30 times stronger than pure plastic, up to 7 times lighter than steel, up to 2 times stronger and lighter than aluminium.

DAY-1

FFF 3D PRINTING AVAILABLE WITH THE TOUCH OF A BUTON

Currently, only 3D printing allows to obtain composite parts with complex shape and high flexible fiber reinforcing paths. With the Composer A3 FFF 3D printer parts anisotropy control and fiber reinforcement potential with maximum efficiency are available with a touch of a button.

4-4

OPTIMAL COMPOSITE STRUCTURES

Lattice anisogrid structures possess high weight efficiency, are not afraid of cutouts and do not need drilling and milling. Structures with irregular grid density and non-geodesic reinforcement provide more efficient distribution of acting loads and, as a result, weight reduction.

-без-названия-6

COMPOSITE FIBER CO-EXTRUSION TECHNOLOGY

The process is based on embedding continuous composite fiber into the fused plastic through the use of a specially developed print head. The technology allows manufacturing high-quality reinforced materials while using the flexibility of shapes and a wide range of plastics.

INDUSTRIAL APPLICATIONS

Aerospace, automotive, manufacturing, robotics, high-performance mobility, healthcare industries can benefit using anisoprinting with the Composer A3 FFF 3D Printer. As a result, you get a bi-matrix composite part of any shape, without tools or molds, without machining and post-processing. Several times stronger and lighter than plastic, metal or non-optimal 3D printed composites.

AEROSPACE. FFF 3D printing with the Composer A3 is particularly applicable in industries requiring high parts and components strength and accuracy and low weight at the same time, such as aerospace engineering.

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AUTOMOTIVE. Parts and components made of continuous fiber reinforced composites are widely used in automotive applications, providing same or higher strength characteristics than conventional materials at a lower weight. Such components are particularly effective in motorsports, where parts weight and ability to be produced quickly and flexibly play a decisive role.

-16

MANUFACTURING. Case parts, as well as complex configuration parts made of conventional materials requiring expensive and time-consuming machining can be successfully replaced by parts and components made of continuous fiber reinforced composites. In this case, the required strength characteristics of parts are ensured with their lower weight and lower production costs.

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ROBOTICS. Robot and robotics production is constantly increasing. Developing these devices quickly requires ability to rapidly create prototypes and parts with non-standard configurations. For robotics, the advantages offered by continuous fiber reinforced composite 3D printing technology are particularly relevant, as parts produced using this technology provide less weight with equal strength characteristics, as well as more energy per unit weight of the device, which is crucial for autonomous products.

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HIGH PERFORMANCE MOBILITY. Advantages of manufacturing parts and assemblies for high-performance mobility using composite materials reinforced with continuous fiber 3D printing technology are obvious: you can create non-standard configuration parts of lower weight with required strength characteristics and rapidly produce parts without complex technological production setup.

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-4
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FFF 3D PRINTER FUNCTION

3D printer function is to directly create objects of various shapes from computer graphics data without the need for machining or molds. This significantly reduces the production cycle of products and improves productivity.

Desktop FFF 3D printers like the Composer A3 are in great demand in equipment manufacturing, aerospace, automobiles, robotics and intelligent manufacturing as well as in quick prototyping for various industries field. This latest generation of FFF technology 3D printers has achieved groundbreaking speed, reducing costs by more than 10 times while parts printed excelling the strength of metal. This printer is a turnkey desktop continuous fiber reinforced 3D printing solution for producing anisoprinted composite parts.

The post COMPOSER A3 FFF 3D Printer appeared first on Dev.

]]> COMPOSER A4 FFF 3D Printer https://dev.additiveplus.com/product/composer-a4-fff-3d-printer-copy/ Thu, 25 Apr 2024 15:13:30 +0000 https://dev.additiveplus.com/?post_type=product&p=35398 Desktop FFF 3D printer for easy parts manufacturing of optimal composites with continuous fiber reinforcement.

The post COMPOSER A4 FFF 3D Printer appeared first on Dev.

]]>

The COMPOSER A4 FFF 3D printer is a desktop  hardware designed for producing anisoprinted composite parts of continuous fiber reinforced polymers. This printer provides easier and faster parts manufacturing process, stronger, lighter and cheaper than of metal or non-optimal composites. Aerospace, automotive, manufacturing, robotics, high-performance mobility, healthcare industries can benefit using anisoprinting with the COMPOSER A4.

DESKTOP HARDWARE

  • 11.6×8.2×5.5 in / 297×210×140mm build volume
  • 24×15.7×15.7 in / 610×400×400mm overall dimensions
  • Dual nozzle print head with FFF and CFC extruders
  • Max. print head temperature up to 270 °C  
  • Ethernet, WiFi, USB-type B, SD-card slot data transfer interfaces
 
 

MATERIALS

  • Continuous fiber reinforced composites ×30 stronger than pure plastic, ×7 lighter than steel, ×2 stronger & lighter than aluminum
  • Compatible plastics: PLA, PETG, PA, PC, ABS, TPU, etc. with up to 270 °C processing temperature 
  • Reinforcing: Composite Basalt Fiber (CBF) and Composite Carbon Fiber (CCF)
  • Composite Fiber Co-extrusion technology

3D SLICER AURA SOFTWARE

  • For FFF and CFC printers
  • Support for STL and CAD formats (.stp, .3ds, .obj)
  • Model saved on a local PC
  • G-code generalization, geometry view
  • Separate printers, plastics and profiles setting and combining
  • A set of verified printing profiles for certain plastic filaments
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-3

COMPOSER A4 DESKTOP FFF 3D PRINTER ADVANTAGES

The COMPOSER A4 FFF 3D printer is a turnkey desktop continuous fiber reinforced 3D printing solution for producing anisoprinted composite parts. Stronger, lighter and cheaper than metal or non-optimal composites.

 

2-4

QUICK START WITH ANISOPRINT SUPPORT

You can quickly master anisoprinting basics with the Composer A4 printer using Anisoprint support, including a Quick Start Guide, Hardware Guide, User Guide, as well as a Troubleshooting section and firmware update options. Available at anisoprint.com/support.

DAY

CUSTOMIZED ANISOPRINT AURA SOFTWARE

Anisoprint has developed specialized Aura slicer software applicable to both continuous fiber 3D printing with proprietary Composer CFC-printers and conventional FFF-printing. Aura prepares a 3D model, generates reinforcing fiber trajectories in each layer and allows to adjust reinforcement scheme to obtain strong and lightweight parts.

3-2

STRONGER, LIGHTER AND CHEAPER

With the Composer A4 you get a bi-matrix composite part of any shape, without tools or molds, without machining and post-processing. Up to 30 times stronger than pure plastic, up to 7 times lighter than steel, up to 2 times stronger and lighter than aluminium.

DAY-1

FFF 3D PRINTING AVAILABLE WITH THE TOUCH OF A BUTON

Currently, only 3D printing allows to obtain composite parts with complex shape and high flexible fiber reinforcing paths. With the Composer A4 FFF 3D printer parts anisotropy control and fiber reinforcement potential with maximum efficiency are available with a touch of a button.

4-4

OPTIMAL COMPOSITE STRUCTURES

Lattice anisogrid structures possess high weight efficiency, are not afraid of cutouts and do not need drilling and milling. Structures with irregular grid density and non-geodesic reinforcement provide more efficient distribution of acting loads and, as a result, weight reduction.

-без-названия-6

COMPOSITE FIBER CO-EXTRUSION TECHNOLOGY

The process is based on embedding continuous composite fiber into the fused plastic through the use of a specially developed print head. The technology allows manufacturing high-quality reinforced materials while using the flexibility of shapes and a wide range of plastics.

INDUSTRIAL APPLICATIONS

Aerospace, automotive, manufacturing, robotics, high-performance mobility, healthcare industries can benefit using anisoprinting with the Composer A4 FFF 3D Printer. As a result, you get a bi-matrix composite part of any shape, without tools or molds, without machining and post-processing. Several times stronger and lighter than plastic, metal or non-optimal 3D printed composites.

AEROSPACE. FFF 3D printing with the Composer A4 is particularly applicable in industries requiring high parts and components strength and accuracy and low weight at the same time, such as aerospace engineering.

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-10
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AUTOMOTIVE. Parts and components made of continuous fiber reinforced composites are widely used in automotive applications, providing same or higher strength characteristics than conventional materials at a lower weight. Such components are particularly effective in motorsports, where parts weight and ability to be produced quickly and flexibly play a decisive role.

-16

MANUFACTURING. Case parts, as well as complex configuration parts made of conventional materials requiring expensive and time-consuming machining can be successfully replaced by parts and components made of continuous fiber reinforced composites. In this case, the required strength characteristics of parts are ensured with their lower weight and lower production costs.

-19
-18
-17
-15
-12
-9

ROBOTICS. Robot and robotics production is constantly increasing. Developing these devices quickly requires ability to rapidly create prototypes and parts with non-standard configurations. For robotics, the advantages offered by continuous fiber reinforced composite 3D printing technology are particularly relevant, as parts produced using this technology provide less weight with equal strength characteristics, as well as more energy per unit weight of the device, which is crucial for autonomous products.

-13
-10

HIGH PERFORMANCE MOBILITY. Advantages of manufacturing parts and assemblies for high-performance mobility using composite materials reinforced with continuous fiber 3D printing technology are obvious: you can create non-standard configuration parts of lower weight with required strength characteristics and rapidly produce parts without complex technological production setup.

-14
-6
-4
-7
-8

FFF 3D PRINTER FUNCTION

3D printer function is to directly create objects of various shapes from computer graphics data without the need for machining or molds. This significantly reduces the production cycle of products and improves productivity.

Desktop FFF 3D printers like the Composer A4 are in great demand in equipment manufacturing, aerospace, automobiles, robotics and intelligent manufacturing as well as in quick prototyping for various industries field. This latest generation of FFF technology 3D printers has achieved groundbreaking speed, reducing costs by more than 10 times while parts printed excelling the strength of metal. This printer is a turnkey desktop continuous fiber reinforced 3D printing solution for producing anisoprinted composite parts.

The post COMPOSER A4 FFF 3D Printer appeared first on Dev.

]]> PROM IS 500 FFF 3D Printer https://dev.additiveplus.com/product/prom-is-500-fff-3d-printer/ Wed, 24 Apr 2024 11:09:29 +0000 https://dev.additiveplus.com/?post_type=product&p=35334 Industrial grade 3D printer for manufacturing mid-sized composites from high-temperature thermoplastics with continuous fiber reinforcement

The post PROM IS 500 FFF 3D Printer appeared first on Dev.

]]>

The PROM IS 500 IS FFF 3D Printer is an industrial  hardware designed for additive manufacturing of continuous fiber reinforced high temperature polymers. This printer provides easier, faster and cheaper manufacturing process with high-strength parts from continuous fiber reinforced composites. Aerospace, automotive, manufacturing, robotics, high-performance mobility, healthcare industries can benefit using anisoprinting with PROM IS 500.

HARDWARE

  • 23.6×16×11.8in / 600×420×300mm build volume
  • Heated chamber temperature up to 160 
  • Made for 24/7 run in a factory environment

  • Industrial CNC, industrial standards: reliabiliry, repeatability, precision and safety

 
 

MATERIALS

  • Continuous fiber reinforced composites ×30 stronger than pure plastic, ×2 stronger & lighter than aluminum
  • High temperature plastics (up to 410 °C) as a matrix: PEEK, PEI etc.
  • Flexible materials choice, fiber volume ratio, parts complexity and fiber laying trajectories

3D SLICER AURA SOFTWARE

  • For FFF and CFC printers
  • Support for STL and CAD formats (.stp, .3ds, .obj)
  • Model saved on a local PC
  • G-code generalization, geometry view
  • Separate printers, plastics and profiles setting and combining
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PROM IS 500 INDUSTRIAL FFF 3D PRINTER ADVANTAGES

3D printer PROM IS 500 is a turnkey continuous fiber 3D industrial printing solution for producing anisoprinted composite parts. Stronger, lighter and cheaper than metal or non-optimal composites.

 

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INDUSTRIAL GRADE HIGH PRECISION CNC

Prom IS 500 3D printer uses Bosch Rexroth XM42 PLC based industry standard CNC with additive technology and CFC module. X, Y, Z axes motions are driven by servomotors using high-precision ballscrew gearing, providing maximum travel speed up to 20,000 mm/min with tolerance up to 0.0079in / 0.2mm.

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CUSTOMIZED ANISOPRINT AURA SOFTWARE

Anisoprint has developed specialized Aura slicer software applicable to both continuous fiber 3D printing with proprietary Composer CFC-printers and conventional FFF-printing. Aura prepares a 3D model, generates reinforcing fiber trajectories in each layer and allows to adjust reinforcement scheme to obtain strong and lightweight parts.

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MADE FOR 24/7 RUN


Prom IS 500 components, including an extruder, chamber and material storage chamber, are specifically engineered to withstand constant exposure to high temperatures and provide mid-sized composites from high-temperature thermoplastics with continuous fiber reinforcement manufacturing 24/7 in a factory environment.

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TOOL CHANGER FOR UP TO 4 PRINT HEADS

The Prom IS 500 tool changer allows rapid changeover of up to 4 print heads, enabling quick and flexible production readjustment from one process and material to another.

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MATERIAL STORAGE TEMPERATURE AND HUMIDITY CONTROL

Prom IS 500 provide plastic material storage in a specially designed storage chamber, where the preset temperature (up to 90 °C) and humidity are maintained, so achieving preliminary plastic treatment.

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MATERIAL FLOW AND PRESENCE SENSORS

Material flow and presence sensors allow production process real-time monitoring, ensuring process continuity as well as timely information on material consumption and process parameters.

INDUSTRIAL APPLICATIONS

Aerospace, automotive, manufacturing, robotics, high-performance mobility, healthcare industries can benefit using anisoprinting with Prom IS 500 FFF 3D Printer. As a result, you get a bi-matrix composite part of any shape, without tools or molds, without machining and post-processing. Several times stronger and lighter than plastic, metal or non-optimal 3D printed composites.

AEROSPACE. PROM IS 500 is particularly applicable in industries requiring high parts and components strength and accuracy and low weight at the same time, such as aerospace engineering.

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AUTOMOTIVE. Parts and components made of continuous fiber reinforced composites are widely used in automotive applications, providing same or higher strength characteristics than conventional materials at a lower weight. Such components are particularly effective in motorsports, where parts weight and ability to be produced quickly and flexibly play a decisive role.

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MANUFACTURING. Case parts, as well as complex configuration parts made of conventional materials requiring expensive and time-consuming machining can be successfully replaced by parts and components made of continuous fiber reinforced composites. In this case, the required strength characteristics of parts are ensured with their lower weight and lower production costs.

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ROBOTICS. Robot and robotics production is constantly increasing. Developing these devices quickly requires ability to rapidly create prototypes and parts with non-standard configurations. For robotics, the advantages offered by continuous fiber reinforced composite 3D printing technology are particularly relevant, as parts produced using this technology provide less weight with equal strength characteristics, as well as more energy per unit weight of the device, which is crucial for autonomous products.

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HIGH PERFORMANCE MOBILITY. Advantages of manufacturing parts and assemblies for high-performance mobility using composite materials reinforced with continuous fiber 3D printing technology are obvious: you can create non-standard configuration parts of lower weight with required strength characteristics and rapidly produce parts without complex technological production setup.

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FFF 3D PRINTER FUNCTION

The function of the 3D printer is to directly create objects of various shapes from computer graphics data without the need for machining or molds. This significantly reduces the production cycle of products and improves productivity.

Industrial 3D printers like the Prom IS 500 are widely used in fields such as equipment manufacturing, aerospace, automobiles, robotics and intelligent manufacturing. This latest generation of FFF technology 3D printers has achieved groundbreaking speed, reducing costs by more than 10 times while parts printed excelling the strength of metal. This printer is a turnkey continuous fiber 3D industrial printing solution for producing anisoprinted composite parts.

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