Compact mode
MakerBot Method X
Known for Circulating Heated Chamber,Dual Extrusion,Enclosed Heated Chamber,Precision
Table of content
Technical Specifications
Printing Technology 💡
The fundamental method used by the 3D printer to create objectsBuild Volume 📏
Defines the maximum size of objects that can be printed< measured in cubic millimeters or dimensions (length x width x height).Build Volume Type 📈
Classifies the 3D printer's build volume into categories based on size< ranging from small to extra large.Print Resolution 🔎
Represents the minimum layer height a 3D printer can achieve< measured in micrometers (µm).Print Resolution Type 🎨
Categorizes the 3D printer's print resolution capabilities< ranging from ultra-fine to standard.Printing Materials 🧬
Lists the types of filaments or materials compatible with the 3D printer.- PLAMakerBot Method X can print with PLA. 3D printers designed to work with PLA, a biodegradable and easy-to-use material for various applications Click to see all.
- ABSMakerBot Method X can print with ABS. 3D printers optimized for printing with ABS filament. Click to see all.
- NylonMakerBot Method X can print with Nylon. 3D printers designed to work with nylon filaments for producing strong and flexible parts Click to see all.
- PETGMakerBot Method X can print with PETG. 3D printers suitable for printing with PETG material for strong and food-safe objects Click to see all.
- PCMakerBot Method X can print with PC. 3D printers suitable for printing with polycarbonate (PC) material for tough and heat-resistant objects Click to see all.
Manufacturing
Made In 🌍
The country of origin or manufacturing location for the 3D printer
Facts
Interesting Fact 🤔
An intriguing or little-known fact about the 3D printer or its development- Features a patented Circulating Heated Chamber
Sarcastic Fact 😉
A humorous or satirical observation about the 3D printer or its usage- Probably has a higher IQ than some of its users
User Experience
Ease of Use 💻
A score out of 10 indicating how user-friendly and accessible the printer is
Value
Buy It For Life 💰
A score out of 10 indicating the printer's long-term value and durability
General Information
Price Range 📈
A categorized range of prices for the 3D printer
Usage
For whom 👥
Target audience for the 3D printer, indicating the user groups it's best suited for- ProfessionalsMakerBot Method X is designed for Professionals. Professional-grade 3D printers offer high precision, advanced features, and reliability for business and industrial use. Click to see all.
- EngineersMakerBot Method X is designed for Engineers. Engineers use 3D printers for prototyping, testing designs, and creating custom tools and parts. Click to see all.
- ProfessionalMakerBot Method X is designed for Professional. Professional 3D printers offer high precision, reliability, and advanced features for commercial and industrial applications. Click to see all.
- EducationalMakerBot Method X is designed for Educational. Educational institutions use 3D printers to enhance learning, teach design principles, and encourage hands-on creativity. Click to see all.
Purpose 💻
Primary applications and use cases for the 3D printer- High-Temperature MaterialsMakerBot Method X is primarily used for High-Temperature Materials. 3D printers capable of working with materials that require high printing temperatures Click to see all.
- PrecisionMakerBot Method X is primarily used for Precision.
- Professional PrototypingMakerBot Method X is primarily used for Professional Prototyping. Professional prototyping 3D printers offer high precision, material versatility, and advanced features for creating detailed models. Click to see all.
- Classroom UseMakerBot Method X is primarily used for Classroom Use. 3D printers designed for educational environments, featuring safety measures, ease of use, and durability to withstand frequent student use. Click to see all.
- Industrial-Grade PartsMakerBot Method X is primarily used for Industrial-Grade Parts.
- Functional PrototypesMakerBot Method X is primarily used for Functional Prototypes.
Features
Pros 👍
Advantages and positive features of the 3D printer- High-Temperature Printing
- Soluble Supports3D printers capable of using dissolvable support materials for creating complex geometries with clean finishes. Click to see all.
- Precision
- Heated Chamber
- Cloud-Connected
- Circulating Heated Chamber
- Dual Extrusion
- High PrecisionHigh precision ensures accurate dimensions and fine details, crucial for engineering parts or detailed models. Click to see all.
Cons 👎
Disadvantages and limitations of the 3D printer- Very Expensive
- Proprietary MaterialsPrinters restricted to brand-specific consumables, potentially increasing long-term costs Click to see all.
- Expensive
- Limited To Makerbot Materials
- Small Build Volume For The PriceCost-effective 3D printers offering larger than expected build volumes for their price point, providing great value for size-conscious buyers. Click to see all.
Performance
Print Quality 🎨
A score out of 10 reflecting the overall print quality and resolutionReliability 🔨
A score out of 10 representing the printer's consistency and dependability
Rating
Score ⭐
An overall rating out of 10 based on various performance and user satisfaction metrics
Alternatives to MakerBot Method X
Raise3D Pro3
Known for Dual Extrusion And High Precision
📏
has a smaller build volume than MakerBot Method X
Ultimaker S5
Known for Dual Extrusion,Reliability
📏
has a smaller build volume than MakerBot Method X
🎨
produces higher quality prints than MakerBot Method X
💻
is easier to use than MakerBot Method X
🔨
is more reliable than MakerBot Method X
💰
is more durable than MakerBot Method X
⭐
is rated higher than MakerBot Method X
Raise3D Pro2
Known for Dual Extrusion,Large Touchscreen
📏
has a smaller build volume than MakerBot Method X
⭐
is rated higher than MakerBot Method X
Ultimaker S5 Pro Bundle
Known for Dual Extrusion,Air Filtration,Reliability And Ease Of Use,Large Build Volume
📏
has a smaller build volume than MakerBot Method X
🎨
produces higher quality prints than MakerBot Method X
🔨
is more reliable than MakerBot Method X
💰
is more durable than MakerBot Method X
⭐
is rated higher than MakerBot Method X
Ultimaker S3
Known for Reliability,Dual Extrusion
📏
has a smaller build volume than MakerBot Method X
💻
is easier to use than MakerBot Method X
🔨
is more reliable than MakerBot Method X
💰
is more durable than MakerBot Method X
⭐
is rated higher than MakerBot Method X
Fusion3 F410
Known for Enclosed Chamber
🔨
is more reliable than MakerBot Method X
💰
is more durable than MakerBot Method X
⭐
is rated higher than MakerBot Method X
Dremel DigiLab 3D45
Known for HEPA Filter,Brand Reputation,Reliability
🔎
has a higher resolution than MakerBot Method X
💻
is easier to use than MakerBot Method X
🔨
is more reliable than MakerBot Method X
💰
is more durable than MakerBot Method X
BCN3D Sigma D25
Known for IDEX System,Large Build Volume
📏
has a smaller build volume than MakerBot Method X
🔎
has a higher resolution than MakerBot Method X
Raise3D Pro3 Plus
Known for High Precision,Large Format Printing
📏
has a smaller build volume than MakerBot Method X
💰
is more durable than MakerBot Method X
⭐
is rated higher than MakerBot Method X
Bambu Lab X1 Carbon
Known for Core XY Design,Advanced Features,High-Speed Printing,AI-Powered Features
🔎
has a higher resolution than MakerBot Method X
⭐
is rated higher than MakerBot Method X