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  • Welcome to embodi3D Downloads! This is the largest and fastest growing library of 3D printable anatomic models generated from real medical scans on the Internet. A unique scientific resource, most of the material is free. Registered members can download, upload, and sell models. To convert your own medical scans to a 3D model, take a look at democratiz3D, our free and automated conversion service.

     

    Alert (6/17/22) - The democratiz3D scan-to-model conversion app is down due to a technical issue. We are working on a solution. 

Upper Extremity CTs

CTs of the shoulder, arm, forearm, and hand

313 files

  1. Free

    shoulder1

    By Manaswini Chennoju

    pilot

    32 downloads

       (0 reviews)

    0 comments

    Submitted

  2. Free

    Saad Elbow

    By saadrabia

    Personal
     
    Humerus, Olecranon fossa , Medial epicondyle, Olecranon, Lateral epicondyle, Trochlea, Capitellum, Humeroulnar joint, Humeroradial joint, Coronoid process, Radial head, Proximal radioulnar joint, Radial neck, Radial tuberosity, Ulna ,Radius, bone, .stl, 3d, model, ct scan, without, contrast

    51 downloads

       (0 reviews)

    0 comments

    Updated

  3. Free

    glenoid fracture

    By RCOS

    glenoid fracture Acromioclavicular joint, Clavicle, Acromion, Coracoid process, Superior angle, Spine of the scapula, Humeral head, Articular surface, Lateral process (neck) of the scapula, Medial margin, Lateral margin, Inferior angle, ribs, bone, 3d, model, .stl, printable, ct, scan, without, contrast, fracture

    26 downloads

       (0 reviews)

    0 comments

    Updated

  4. Free

    glenoid

    By RCOS

    Acromioclavicular joint, Clavicle, Acromion, Coracoid process, Superior angle, Spine of the scapula, Humeral head, Articular surface, Lateral process (neck) of the scapula, Medial margin, Lateral margin, glenoid Inferior angle, ribs, bone, 3d, model, .stl, printable, ct, scan, without, contrast, fracture

    53 downloads

       (0 reviews)

    0 comments

    Updated

  5. Free

    glenoid

    By RCOS

    gh
     
    Acromioclavicular joint, Clavicle, Acromion, Coracoid process, Superior angle, Spine of the scapula, Humeral head, Articular surface, Lateral process (neck) of the scapula, Medial margin, Lateral margin, Inferior angle, ribs, bone, 3d, model, .stl, printable,

    5 downloads

       (0 reviews)

    0 comments

    Updated

  6. Free

    Radialer Bruch

    By Camaelion

    radialer bruch
     
    3d, model, .stl, printable, Distal phalanx (tuft), Distal phalanx, Distal interphalangeal joint, Proximal interphalangeal joint, Middle phalanx, Head of the proximal phalanx, Proximal phalanx, Metacarpophalangeal joint, Base of the proximal phalanx, Metacarpal head, Sesamoid, Metacarpal, Metacarpal base, Capitate, Trapezoid, Hamate, Trapezium, Triquetrum, Scaphoid, Pisiform, Radial styloid, Ulnar styloid, Lunate, Distal radius, Distal radioulnar joint, ct, scan, without, contrast, fracture, 

    33 downloads

       (0 reviews)

    0 comments

    Updated

  7. Free

    test CTA neck file

    By ebru

    CTA boyun dosyasını test edin
     
    Acromioclavicular joint, Clavicle, Acromion, Coracoid process, Superior angle, Spine of the scapula, Humeral head, Articular surface, Lateral process (neck) of the scapula, Medial margin, Lateral margin, Inferior angle, ribs, bone, 3d, model, .stl, printable, ct, scan, without, contrast, 

    8 downloads

       (0 reviews)

    0 comments

    Updated

  8. Free

    OMBRO 1

    By eduneri

    TOMO, Acromioclavicular joint,  Clavicle,  Acromion,  Coracoid process,  Superior angle,  Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, ribs, bone, 3d, model, .stl, printable, ct, scan, without, contrast, 

    20 downloads

       (0 reviews)

    0 comments

    Updated

  9. Free

    OMBRO

    By eduneri

    TOMO OMBRO, Acromioclavicular joint,  Clavicle,  Acromion,  Coracoid process,  Superior angle,  Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the scapula,  Medial margin,  Lateral margin,  Inferior angle, ribs, bone, 3d, model, .stl, printable, ct, scan, without, contrast, 

    4 downloads

       (0 reviews)

    0 comments

    Updated

  10. Free

    TESTE

    By Marcelo Teixeira

    TESTE  3d, model, .stl, printable, Distal phalanx (tuft), Distal phalanx, Distal interphalangeal joint, Proximal interphalangeal joint, Middle phalanx, Head of the proximal phalanx, Proximal phalanx, Metacarpophalangeal joint, Base of the proximal phalanx, Metacarpal head, Sesamoid, Metacarpal, Metacarpal base, Capitate, Trapezoid, Hamate, Trapezium, Triquetrum, Scaphoid, Pisiform, Radial styloid, Ulnar styloid, Lunate, Distal radius, Distal radioulnar joint, ct, scan, without, contrast,

    19 downloads

       (0 reviews)

    0 comments

    Updated

  11. Free

    phalanx1

    By Thriller

    phalanx, hand, bone, epiphysis, metaphysis, diaphysis, cortex, ct, scan, without, contrast, upper limb

    26 downloads

       (0 reviews)

    0 comments

    Updated

  12. Free

    handScan

    By Brian H

    Hand scan for project
     
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Sesamoid,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,  Trapezium,  Triquetrum,  Scaphoid,  Pisiform,  Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint
    Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, ct, scan, without, contrast,

    110 downloads

       (0 reviews)

    0 comments

    Updated

  13. Free

    Test 4

    By OfNix

    Test4
    501 Patient Protocol.nrrd
     
    right shoulder 2nd attempt
     
    Clavicle,  Acromion,  Coracoid process,  Superior angle, Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the
    scapula,  Medial margin,  Lateral margin,  Inferior angle, Anterior arch of the atlas, Base of the skull,  Odontoid process, Posterior arch of the atlas,  Mandible,  Spinous process,  Body of the axis,  Anterior superior margin of the vertebra,  Transverse process,  Anterior inferior margin of the vertebra,  3D model, stl, bone,  CT, scan, without, contrast,

    6 downloads

       (0 reviews)

    0 comments

    Updated

  14. Free

    right shoulder 2

    By Dr. Pop

    right shoulder 2nd attempt
     
    Clavicle,  Acromion,  Coracoid process,  Superior angle, Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the
    scapula,  Medial margin,  Lateral margin,  Inferior angle, Anterior arch of the atlas, Base of the skull,  Odontoid process, Posterior arch of the atlas,  Mandible,  Spinous process,  Body of the axis,  Anterior superior margin of the vertebra,  Transverse process,  Anterior inferior margin of the vertebra,  3D model, stl, bone,  CT, scan, without, contrast,

    27 downloads

       (0 reviews)

    0 comments

    Updated

  15. Free

    Shoulder bone (1) of the patient

    By 3dsmartprint

    CT scan of the shoulder bone (1) of the patient (wounded soldier)
     
    Clavicle,  Acromion,  Coracoid process,  Superior angle, Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the
    scapula,  Medial margin,  Lateral margin,  Inferior angle, Anterior arch of the atlas, Base of the skull,  Odontoid process, Posterior arch of the atlas,  Mandible,  Spinous process,  Body of the axis,  Anterior superior margin of the vertebra,  Transverse process,  Anterior inferior margin of the vertebra,  3D model, stl, bone, ct, scan, without, contrast,

    27 downloads

       (0 reviews)

    0 comments

    Updated

  16. Free

    Test File

    By liniki

    frist test file
     
    Clavicle,  Acromion,  Coracoid process,  Superior angle, Spine of the scapula,  Humeral head,  Articular surface,  Lateral process (neck) of the
    scapula,  Medial margin,  Lateral margin,  Inferior angle, Anterior arch of the atlas, Base of the skull,  Odontoid process, Posterior arch of the atlas,  Mandible,  Spinous process,  Body of the axis,  Anterior superior margin of the vertebra,  Transverse process,  Anterior inferior margin of the vertebra,  3D model, stl, bone,  ct, scan, without, contrast,

    17 downloads

       (0 reviews)

    0 comments

    Updated

  17. Free

    Elbow CT

    By tat2mikki

    Elbow CT after extension dislocation and coronoid process & olecranon fracture
     
    Humerus, Olecranon fossa , Medial epicondyle, Olecranon, Lateral epicondyle, Trochlea, Capitellum, Humeroulnar joint, Humeroradial joint, Coronoid process, Radial head, Proximal radioulnar joint, Radial neck, Radial tuberosity, Ulna ,Radius, bone, .stl, 3d, model, ct scan, without, contrast

    40 downloads

       (0 reviews)

    0 comments

    Updated

  18. Free

    my bones

    By fghujiko

    a test
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Sesamoid,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,  Trapezium,  Triquetrum,  Scaphoid,  Pisiform,  Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint
    Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, ct, scan, without,

    25 downloads

       (0 reviews)

    0 comments

    Updated

  19. Free

    muscles in that broken hand

    By MrCoffee2004

    There be meat near them bones...
     
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Sesamoid,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,  Trapezium,  Triquetrum,  Scaphoid,  Pisiform,  Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint
    Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, ct, scan, without, contrast, fracture,

    24 downloads

       (0 reviews)

    0 comments

    Updated

  20. Free

    BrokenHand

    By MrCoffee2004

    Shattered base of 5 tarsal. 
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Sesamoid,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,  Trapezium,  Triquetrum,  Scaphoid,  Pisiform,  Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint
    Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, ct, scan, without, contrast, fracture,

    67 downloads

       (0 reviews)

    0 comments

    Updated

  21. Free

    underarm CT 2

    By Mehdy

    forearm CD fine sections in NRRD format
     
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Sesamoid,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,  Trapezium,  Triquetrum,  Scaphoid,  Pisiform,  Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint, Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, forearm, ct, scan, without, contrast,

    31 downloads

       (0 reviews)

    0 comments

    Updated

  22. Free

    Elbow

    By Dangams

    Elbow disassembly
     
    Humerus, Olecranon fossa , Medial epicondyle, Olecranon, Lateral epicondyle, Trochlea, Capitellum, Humeroulnar joint, Humeroradial joint, Coronoid process, Radial head, Proximal radioulnar joint, Radial neck, Radial tuberosity, Ulna ,Radius, bone, .stl, 3d, model, ct scan, without, contrast

    12 downloads

       (0 reviews)

    0 comments

    Updated

  23. Free

    underarm CT

    By Mehdy

    Forearm CT in fine sections
     
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Sesamoid,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,  Trapezium,  Triquetrum,  Scaphoid,  Pisiform,  Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint, Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, forearm, ct, scan, without, contrast,

    20 downloads

       (0 reviews)

    0 comments

    Updated

  24. Free

    a

    By dsikstrom

    Humerus, Coronoid fossa,  Coronoid process,  Radial head,  Radial tuberosity, Olecranon fossa,  Medial epicondyle,  Lateral epicondyle,  Radius,  Humeroulnar joint,  Olecranon,  Humeroradial joint, Ulna, sagittal, upper, limb, .stl, elbow, bone, 3d, model,

    18 downloads

       (0 reviews)

    0 comments

    Updated

  25. Free

    ORIFRadiusDJDofDRUJ

    By artthiel

    Retained hardware and arthritis of the DRUJ
     
    3d, model, .stl, printable, Distal phalanx (tuft),  Distal phalanx,  Distal interphalangeal joint,  Proximal interphalangeal joint,  Middle phalanx,  Head of the proximal phalanx,  Proximal phalanx,  Metacarpophalangeal joint,  Base of the proximal phalanx,  Metacarpal head,  Sesamoid,  Metacarpal,  Metacarpal base,  Capitate,  Trapezoid,  Hamate,  Trapezium,  Triquetrum,  Scaphoid,  Pisiform,  Radial styloid,  Ulnar styloid,  Lunate,  Distal radius,  Distal radioulnar joint, Distal ulna, 3d, model, .stl, upper, limb, hand, wrist, upper, limb, bone, CT, scan, without, contrast

    9 downloads

       (0 reviews)

    0 comments

    Updated

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    • Hermione
      Temperature Control Software for Core XY 3D Printers: A Comprehensive Guide

      By Hermione · Posted

      This article provides an in-depth exploration of temperature control software for Core XY 3D printer, its importance, functionalities, and how it can enhance the printing process. Understanding Temperature Control in 3D Printing In 3D printing, precise temperature control is critical for the following reasons: Hotend Temperature: The hotend melts the filament, and controlling its temperature ensures the filament flows consistently and smoothly. Inconsistent hotend temperatures can result in issues such as under-extrusion, over-extrusion, stringing, and layer separation. Heated Bed Temperature: The heated bed prevents warping by keeping the printed object’s base warm, ensuring strong adhesion to the print surface. If the bed temperature is too low, prints may not stick properly, leading to warping and failed prints. Conversely, if the temperature is too high, it can cause over-adhesion, making parts difficult to remove. Cooling Systems: Cooling fans are often overlooked, but they play a crucial role in controlling the temperature of the printed layers. Cooling too quickly or too slowly can impact layer adhesion, print quality, and overall strength. For Core XY printers, which are designed for high precision and speed, temperature control becomes even more critical to ensure that prints are both accurate and durable. Importance of Temperature Control Software The role of temperature control software in Core XY 3D printing is to automate and optimize the heating and cooling processes of both the hotend and heated bed. Without proper software, maintaining a stable temperature can be difficult, leading to uneven extrusion and poor-quality prints. Advanced temperature control software comes with the ability to: Maintain Consistent Temperature: Software that monitors and adjusts temperature in real-time prevents fluctuations that could negatively affect print quality. Optimize Material-Specific Settings: Different filaments such as PLA, ABS, PETG, or TPU require specific temperature ranges for optimal printing. Temperature control software can store preset values and automatically adjust the printer’s settings to suit the material being used. Improve Print Speed and Quality: Core XY printers are capable of high-speed printing, but rapid movements can lead to temperature drops in the hotend. Software helps to maintain stable temperatures during high-speed prints, resulting in consistent extrusion and higher print quality. Prevent Overheating and Thermal Runaway: Safety is another key factor. Temperature control software can detect overheating and prevent dangerous scenarios like thermal runaway, where unchecked temperatures cause equipment damage or fire hazards. Adaptive Temperature Adjustment: Some software includes features that adjust temperatures dynamically based on the size, complexity, or layer height of the print, ensuring optimal settings throughout the print job. Types of Temperature Control Software for Core XY Printers There are several types of software used to manage and optimize temperature control in Core XY 3D printers. These include: Firmware-Based Control: The firmware of a 3D printer, such as Marlin, RepRap, or Klipper, is where basic temperature control is handled. This software communicates directly with the hardware and allows users to set and monitor temperatures through G-code commands. Firmware is responsible for executing commands to control the hotend and heated bed, ensuring temperatures stay within the designated range throughout the print. Firmware-based control provides basic temperature management, but it also includes advanced features such as PID tuning (Proportional, Integral, Derivative). PID tuning ensures that temperature fluctuations are minimized and that the hotend and bed quickly reach and maintain the set temperature without overshooting or oscillating. Slicing Software: Temperature control is also managed through slicing software like Cura, PrusaSlicer, or Simplify3D. These programs allow users to define specific temperatures for both the hotend and heated bed based on the filament type and desired print quality. Slicing software communicates these settings to the printer via G-code, ensuring that the printer follows precise temperature instructions throughout the print job. Slicing software typically includes the ability to control temperatures for different stages of the print, such as: First Layer: The initial layer may require a higher bed temperature to ensure proper adhesion. Subsequent Layers: Temperatures may be lowered after the first few layers to prevent warping or over-adhesion. Cooling Settings: Slicing software often includes controls for fan speeds, which can be adjusted dynamically based on the layer height or complexity of the print. Real-Time Monitoring and Control Software: Programs such as OctoPrint, Repetier-Host, or MatterControl provide real-time monitoring and control over 3D printer temperatures. These programs allow users to connect to their Core XY printer remotely, adjust temperatures on-the-fly, and view temperature charts to ensure consistency. These programs often integrate with temperature sensors and webcams, offering users full control and oversight during the printing process. Features like thermal graphs help users visualize the performance of the hotend and bed, while alerts and notifications can warn of potential temperature-related issues. Standalone Temperature Controllers: Some users opt for standalone temperature controllers that can be connected directly to the printer. These controllers provide more precise control over temperature settings, independent of the printer’s firmware or slicing software. This can be particularly useful in industrial settings where ultra-precise temperature control is required. Advanced Features in Temperature Control Software for Core XY Printers Modern temperature control software includes several advanced features that improve print quality and reliability. Here are some of the key functionalities: PID Autotuning: PID autotuning is an advanced algorithm used in most temperature control systems to automatically fine-tune the hotend and heated bed’s temperature response. By running a PID autotune command, the printer will heat the hotend or bed multiple times, measure the response, and adjust the PID settings to reduce temperature oscillation. This results in faster and more accurate heating. Multiple Temperature Zones: Some temperature control software supports the use of multiple temperature zones within a print job. For example, the hotend temperature may need to be adjusted depending on the layer height or print speed. Multiple zones allow for greater flexibility and can improve print quality by tailoring the temperature profile to the specific needs of different sections of the print. Smart Cooling: Cooling is just as important as heating when it comes to print quality. Advanced temperature control software can dynamically adjust cooling fan speeds based on the complexity of the print, the filament material, or the print height. Smart cooling algorithms prevent warping and improve layer adhesion by optimizing the cooling rate in real-time. Temperature Ramping: Temperature ramping is another advanced feature that gradually increases or decreases the temperature of the hotend or bed over time. This feature is useful when printing large objects or materials that require slower temperature changes to avoid cracking or warping. By gradually adjusting temperatures, the software ensures smoother transitions and reduces the chances of thermal shock. Thermal Runaway Protection: Safety is a top priority in temperature control systems. Thermal runaway occurs when a heating element continues to increase in temperature without regulation, potentially leading to dangerous overheating. Most temperature control software includes built-in thermal runaway protection, which monitors temperature sensors and shuts down the printer if temperatures exceed safe thresholds. Temperature Compensation for High-Speed Prints: Core XY printers are known for their ability to print at high speeds. However, at higher speeds, the temperature of the hotend can drop due to the increased rate of extrusion. Temperature control software compensates for this by adjusting the temperature dynamically, ensuring consistent extrusion even during fast print jobs. Best Practices for Temperature Control in Core XY 3D Printers To achieve optimal temperature control in Core XY 3D printers, consider the following best practices: Perform Regular PID Tuning: Over time, the performance of the hotend and heated bed can change due to wear and tear or environmental factors. Performing regular PID tuning ensures that the printer maintains accurate and consistent temperatures. Use Material-Specific Temperature Settings: Different filament types require different temperature settings. Using temperature control software that allows for easy switching between profiles for PLA, ABS, PETG, TPU, or exotic materials ensures the best print quality and prevents material-related issues like warping or stringing. Monitor Temperature Graphs: Real-time temperature graphs provide valuable insight into the performance of the hotend and bed during a print. Monitoring these graphs allows users to spot inconsistencies or temperature drops and make adjustments as needed. Enable Thermal Runaway Protection: Always ensure that thermal runaway protection is enabled in your printer’s firmware. This feature is a critical safety measure that prevents overheating and potential damage to your printer or surroundings. Optimize Fan Speeds: Adjusting the fan speeds during printing can have a significant impact on print quality. Slower cooling may be necessary for the first few layers to prevent warping, while faster cooling can improve overhangs and bridges. Use your slicing software to fine-tune fan settings for optimal results.
    • Hermione
      Bulk Filament Implementation and the Importance of FIFO in 3D Printing

      By Hermione · Posted

      Implementing bulk filament storage is a smart approach for large-scale 3D printing operations, especially when dealing with high print volumes or frequent production runs. However, to ensure efficiency and maintain material quality, following a structured inventory management system like First-In, First-Out (FIFO) is essential.   What is FIFO and Why Is It Important? FIFO is an inventory management method where the oldest stock (first-in) is used first (first-out). When applied to 3D printing bulk filament, this system ensures that the earliest purchased or produced filaments are used before newer stock. Implementing FIFO prevents older filaments from sitting unused for extended periods, which can degrade material quality due to exposure to moisture or light. In 3D printing, where filament quality directly impacts print performance, adhering to FIFO ensures consistency and reduces material waste. Over time, filament can absorb moisture from the environment, particularly hygroscopic materials like PLA and nylon. When these filaments are not stored properly or used promptly, they may degrade, leading to poor extrusion, bubbling, or even failed prints.   How to Implement FIFO in Bulk Filament Storage To implement FIFO for bulk filament, it’s important to organize and label filament spools according to their purchase or production dates. Here’s a step-by-step guide: Label Filament Spools: Upon receiving new filament spools, label each with the date of arrival or production. This will allow you to easily identify which spools should be used first. Storage Organization: Arrange your storage area so that older filaments are placed in front or on top, making them easier to access. Design a clear system where new filament stock is added to the back or bottom of the storage unit. Monitor Material Condition: Regularly check filament spools for signs of moisture absorption or brittleness. Even when following FIFO, ensure that all filaments are stored in dry, temperature-controlled environments, such as sealed containers with desiccant packs. Track Usage: Use inventory management software or a manual log to track the consumption of filament spools. This will help you maintain an accurate view of which materials are being used and when new stock needs to be ordered.   Benefits of FIFO in 3D Printing Operations The FIFO method helps in minimizing material waste, maintaining high print quality, and reducing unexpected filament failures during production. Additionally, this system enhances efficiency, allowing 3D printing businesses to streamline their operations by ensuring that older stock is used promptly.   By implementing FIFO in your bulk filament storage system, you can keep material quality consistent, reduce waste, and maximize the efficiency of your 3D printing workflow.
    • 3dtech
      Looking for affordable 3D printing services in Pune?

      By 3dtech · Posted

      Vexma Technologies offers top-notch 3D printing using advanced Multi Jet Fusion (MJF) technology. Known for delivering exceptional quality, Vexma excels in producing parts with precise details, smooth surfaces, and high mechanical strength. Whether it's complex designs or functional prototypes, their fast and efficient services cater to industries like automotive, aerospace, healthcare, and consumer products. Partnering with Vexma Technologies means getting high-performance, cost-effective 3D printing solutions that can transform your manufacturing process in Pune.
    • Retsuko
      I want to order a 3D print of my spinal model but I don't see an option to order?

      By Retsuko · Posted

      I want to order a medical 3D print of my spine but I don't see anywhere on the site where I can order it. There isn't any "3D print this file" button next to the download button, as exhibited in the attached video.    There's little information here either: https://www.embodi3d.com/medical-3d-printing-service/   I had no problem finding it back in 2021, I'm unsure what changed.  
    • SergDeelf
      Privet

      By SergDeelf · Posted

      [url=http://zmkshop.ru/]zeman металлоконструкции[/url]
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