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Best 3D Printers For Every Budget: FDM & Resin Printers

There has never been a better time to enter the world of 3D printing or upgrade for those already involved. With the proper printer, it is possible to create models, toys, hooks, stands, electronic replacement parts, and a new case for your Raspberry Pi. Consider what you’ll be starting with a 3D printer and continue reading to learn more about how to acquire one of the best printers and plenty of materials for well under $300 in 2022.

The two most prevalent types of home 3D printers are resin MSLA (Masked Stereolithography) and filament FDM (Fused Deposition Modeling) (Fused Deposition Modeling). FDM printers are the best 3D printers for beginners or families with young children. They use plastic filament reels fed into a hot nozzle and extruded out layer by layer to form a solid model. MSLA printers use a UV-cured resin material to create a model layer by layer as it rises from a vat of liquid that must be handled with extreme care.

Before purchasing the best 3D printer for you, there are several factors, so be sure to consider the questions below.

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What exactly is 3D printing?

Using a digital file, 3D printing or additive manufacturing creates three-dimensional solid objects.

Additive processes are utilized in the production of 3D-printed objects. In an additive process, an object is created by successively laying down layers of material until it is complete. Each layer can be viewed as a thin slice through the object.

3D printing is the opposite of subtractive manufacturing, which involves removing material from a piece of metal or plastic using a milling machine, for example.

3D printing allows the creation of complex shapes using less material than conventional manufacturing techniques.

How is 3D printing performed?

Everything begins with a 3D model. You can create one from scratch or download one from a 3D library.

3D Computer Software

There are numerous software applications available. From commercial quality to open source. We’ve added a summary to our 3D software page.

We frequently suggest that beginners begin with Tinkercad. Tinkercad is free and browser-based; installing it on your computer is no need. Tinkercad provides lessons for beginners and has a built-in function to export your model as a printable file, such as.STL or.OBJ.

Once you have a printable file, the next step is to prepare it for your 3D printer. This is known as slicing.

Benefits of using 3D Printer

In recent inventions, 3D printing has been one of the most promising technologies due to its numerous advantages. Additive technology is one of the most excellent benefits of 3D printing, as it enables an entirely new method of product creation and provides numerous advantages over conventional manufacturing techniques.

There are numerous 3D printing technologies available, but the benefits of 3D printing discussed here apply to the entire industry. Through rapid design, high levels of accuracy, and the ability to make well-informed decisions, the following advantages of 3D printing make this technology a viable option for businesses and emphasize its significance for future manufacturing techniques.

Expense reduction

Less expensive machinery, materials, and labor

Cost reduction is essential for any business, and one of the benefits of 3D printing is that it helps to reduce costs. There are three categories of manufacturing costs: machine operation, labor, and material costs.

Machine costs

The machine operation costs contribute a negligible amount to the total cost of the manufacturing process. Developing and creating complex parts and products in a single step increases efficiency. It saves time, even though the energy required to create parts in an industrial setting can be high. Therefore, the savings made during manufacturing are sufficient to offset the machines’ costs.

Labor costs

One of the benefits of 3D printing is that labor costs are kept to a minimum. Unlike traditional manufacturing, where different people may be required to operate various machines, or a production line is required to assemble the product, additive manufacturing does not necessitate either. Each 3D printer will require an operator to initiate the automated creation of the uploaded design. Therefore, labor costs are considerably lower than in conventional manufacturing.

Material costs

The variety of 3D printer filaments used for 3D printing is expanding, which has allowed the price to decrease in recent years. Nevertheless, as with the machine operation costs, the overall costs are significantly less than conventional methods.

Fewer travel costs

One of the most significant benefits of 3D printing is its ability to reduce the distance a product must travel. 3D printers can create a product from start to finish, allowing designers to design a product in one country and then email the design to another country for production. There is no requirement to create prototypes that must be transported between factories to complete the process. This makes 3D printing an industry that can be developed globally without leaving an environmental footprint. Consequently, there is a decrease in shipping, air, and road travel.

In addition to the design and production of prototypes, it is also possible to produce spare parts locally, which can significantly reduce the carbon footprint.

Less waste, greater sustainability.

Traditional manufacturing is primarily a subtractive process in which the raw material is repeatedly wasted and reused, resulting in high costs and waste. This process, known as additive manufacturing, is an advantage of 3D printing because it produces very little waste. Traditional methods have debris that can be reused or recycled, but it takes time and effort to determine how and when the trash will be utilized. Even a large volume 3D printer is a very sustainable option.

For instance, thermoplastic materials can be melted, cured (cooled to the point where they become solid), cured, cured, and so on. Therefore, manufacturing “waste” can be reused (thereby preventing it from ever becoming “waste”).

Reduce time

This is where 3D printing can truly make a difference in our fast-paced world, where everything must be completed quickly. One of the significant benefits of 3D printing is that parts and products can be produced much faster than conventional methods. A complex design can be created as a CAD model and brought to life in hours. This provides design concepts that enable them to be quickly verified and designed in a short amount of time. Using conventional methods, it can take weeks or months to move from the design phase to the prototype phase to the production phase.

It offers a heightened competitive advantage.

With the ability to shorten the prototyping phase, businesses can deliver better, enhanced, and more efficient products in less time. It provides a competitive advantage over rivals. However, it also makes it possible to develop products early, creating prototypes more frequently until the product is ready for production, resulting in a highly effective product launch.

And our 3D printers take the competitive advantage of 3D printing to the next level. Creating a life-size prototype enables designers to think differently about the products they are designing.

In business, displaying the products you intend to sell to customers and investors is essential. Producing a product they may not like can be costly, so it is often left to the imagination when describing products. This increases the likelihood that information will be lost during communication, which can lead to significant issues. One of the benefits of 3D printing is that it enables the rapid creation of a product that people can physically hold, thereby eliminating any concerns or miscommunication. Even though it is a prototype and subject to change, it offers a more accurate representation of the final product than a description.

Reduce mistakes

When designing parts and products, designers must take efficiency into account. Many steps are required to produce numerous components and goods using conventional manufacturing techniques. Therefore, each step may result in an error, posing the risk of restarting the process and causing problems with the overall manufacturing procedure. A one-step manufacturing process is more advantageous.

There are numerous industries with lengthy production procedures. Some steps include developing a CAD model and a prototype that may require modifications before it is sent to final production. This is a long procedure, and none of the steps can be skipped because they all contribute to the manufacturing process. Nevertheless, one of the benefits of 3D printing is that it creates the product in a single step without any operator involvement. Complete the design and send it to the printer. This eliminates reliance on multiple manufacturing processes and increases control over the final product.

In the traditional manufacturing process, defective prototypes are costly and time-consuming. Every flawed prototype necessitates a return to the drawing board, with no assurance that the second attempt will be successful. Even minor modifications have a substantial financial and time impact on the entire process. This is where 3D printing can mitigate risk, as designs can be validated by creating a production-ready prototype before proceeding with the final product. This increases confidence in the design before investments, and additional funds are spent to bring it to the next level of mass production.


Continuous prototyping and manufacturing in-house with a 3D printer safeguards your intellectual property by ensuring that designs never leave the company’s premises. Nobody else can ever claim your innovations as their own. Every innovative design is kept in-house, so there is no longer any need to maintain confidentiality.


Continuous prototyping and manufacturing with a 3D printer safeguard your intellectual property by ensuring that designs never leave the company’s premises. Nobody else can ever claim your innovations as their own. Every innovative design is kept in-house, so there is no longer any need to maintain confidentiality.

On-demand fabrication

Having complete design freedom is a significant advantage of 3D printing. Additionally, it permits designers to customize designs. Since 3D printing is ideal for one-off productions and building single parts in a single process, customization is available. As a result, many industries, including the medical and dental fields, have embraced 3D printing and design to create customized implants and aids. Custom, person-specific parts can be manufactured in a manner that has never been accomplished before.

Traditional methods rely on molds and cutting, making customization a time-consuming endeavor. In contrast, 3D printing allows for the structural integrity of products to be improved, complex changes to be made, and parts to be altered to meet specific requirements. Customization in this manner provides 3D printing with limitless possibilities.

10 Best 3D Printers For Every Budget

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1. Best 3D Printer Overall: Creality Ender-3 S1 Pro 3D Printer

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The Ender 3 S1 Pro is the most recent and impressive model in the popular Ender 3 series. The $479 S1 Pro is not a cheap DIY 3D printer that needs upgrades like its predecessors; it comes fully loaded and offers an out-of-the-box experience that is simple for beginners and powerful for experienced makers.

The Ender 3 S1 Pro comes largely assembled and requires only fifteen minutes and a handful of bolts to assemble. With Creality’s CR Touch probe, bed leveling – the bane of makers new to the hobby – is no longer a concern. This is by far the most straightforward auto-leveling system we’ve examined.

The list of enhancements between the Ender 3 S1 Pro and the Ender 3 is extensive. It features a Sprite direct drive with an all-metal hot-end, a PEI-coated steel flex plate, a color touch screen, tension knobs, a storage drawer, a light kit, and a superior spool holder. The interchangeable tool head of the S1 Pro enables the addition of an optional laser module for engraving.

But the Ender 3 S1 Pro wouldn’t be at the top of our list of the best 3D printers if it didn’t also produce outstanding results. When we printed various detailed models, including a toy dolphin, a vase, and a meowing cat, the prints were exceptionally crisp, with fine lines and minimal stringing. In addition to the fantastic models we printed with PLA filament, we also obtained excellent results with TPU and PETG. On a potted plant model, some green TPU was used to create natural leaves.

Key Features
  • Up to 300°C Printing
  • 4.3” Touch Screen with Friendly UI
  • “Sprite” full-metal dual-gear direct extruder
  • CR Touch Automatic Leveling
  • Removable PEI Spring Steel Sheet
  • LED Light
  • 6-step-Quick Assembly
  • 32-bit silent motherboard
  • Filament Sensor
  • Resume Printing
  • Human-centered Design
  • Easy assembly
  • Great print quality
  • Direct drive
  • All-metal hotend
  • Auto bed leveling
  • Pricey for an Ender
  • Mediocre UI

2. Best Budget Resin 3D Printer: ELEGOO Resin 3D Printer

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If you are new to resin 3D printing, many options and price points are available. The good news for novices is that they need not sacrifice their budget for quality. The user-friendly Mars 2 Pro is available for as little as $200.

Its small build volume makes it ideal for miniatures and trinkets, but not for larger models. And while its 2k resolution may not be the highest among resin printers, it is far superior to the quality achievable with a machine that uses filament.

I discovered that the Mars 2 Pro’s built-in filter system significantly reduces the fumes associated with resin printing. Its spring-loaded, self-leveling construction platforms are the most straightforward system we’ve ever employed.

Key Features
  • 6.08 inch 2K Monochrome LCD
  • Fast Printing and less maintenance
  • Outstanding prints and ultra accuracy
  • Sturdy build quality
  • Multi language interface
  • 1-year warranty
  • Spring-loaded self-leveling build platform
  • Integrated air filtration system
  • Build volume can feel limited

3. Best Budget FDM 3D Printer: ANYCUBIC Kobra Go 3D Printer

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The Anycubic Kobra Go is the ideal 3D printer for beginners looking to learn the craft and seasoned professionals seeking a second (or third) machine that is trouble-free. Sure, it lacks a fancy touch screen, but it does have two convenient features: auto bed leveling and a PEI-coated flex plate.

Anycubic kept the price low, an astounding $219, by making this version a DIY Kit with a less expensive Bowden-style extruder. Its tiny knob-controlled screen may seem retrograde, but it’s so simple to navigate that I didn’t mind. Compared to the standard Kobra or the similarly equipped Creality Ender 3v2 Neo, the additional half-hour or so spent assembling the printer is well worth the $100 savings (opens in new tab).

I’ve seen a lot of inexpensive printers, and they’re typically warehouse clearance sales of obsolete machines. Not so with the Kobra Go, a stripped-down version of the 5-month-old Kobra. You purchase a modern printer with silent fans, a 32-bit board, silent stepper drivers, and an integrated belt tensioner.

Key Features
  • Enjoy DIY, Play with Imagination
  • Accuracy and Constantly 
  • 3d Printer Auto Leveling
  • Fast Printing & Large Printing Size
  • Easy to remove models
  • Affordable price
  • Quality prints
  • Auto bed leveling
  • Requires some assembly

4. Best 3D Printer for Beginners: ANYCUBIC Kobra 3D Printer Auto Leveling

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The Anycubic Kobra is a 3D printer that produces high-quality objects and is simple to operate. A fun hobby.

It is so simple to assemble that you can begin printing within 30 minutes of opening the box. It has a direct drive that is simple to load and an automatic bed leveling system that makes achieving a perfect first layer effortlessly. The print surface is a magnetic plate with a PEI coating that adheres when warm and magically detaches when cold.

Be sure to include a roll of filament in your shopping cart when purchasing the Anycubic Kobra, as you will be printing furiously on its 220 x 220 x 250 print volume.

Key Features
  • 4.3 inch large-size touch screen
  • Printing Technology: FDM (Fused Deposition Modeling)
  • Machine Leveling: 25-point auto leveling
  • Intelligent Auto Leveling 3d printer
  • Fast Printing & Large Printing Size
  • Ultra Smooth Printing
  • Removable Magnetic Platform
  • Extremely lightweight
  • Print without limitations
  • Quicker to start
  • Anycubic LeviQ Leveling
  • Low-cost maintenance platform
  • Ultra smooth printing
  • More choices of filaments
  • Needless to wait
  • Quality prints
  • Direct drive
  • Auto bed leveling
  • Easy assembly
  • Difficult to upgrade
  • Tool head hard to maintain

5. Best 3D Printer for a Print Farm: ANYCUBIC Vyper 3D Printer

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The Anycubic Vyper is designed for high-throughput 3D printing, and its rock-solid build construction and an extensive list of features impressed us. Silent stepper drivers, dual Z threaded rods, and a high-airflow part cooling system are just a few of the numerous features that make the Vyper an obvious choice for anyone interested in printing large quantities of parts.

The strain-gauge bed leveling system enables the Vyper to complete an automatic mesh bed calibration rapidly and precisely. This calibration method is ideal for those who don’t want to spend a lot of time tweaking or calibrating the printer, and it worked well during testing. It didn’t require any additional adjustments to produce an even first layer.

The Vyper is not the least expensive printer on this list, but it has earned its position by providing quick installation and trouble-free operation throughout our testing. Extruder, X/Y belts, etc.) are all easily accessible and adjustable on the Vyper. The included Cura slicer application is simple, but the printer profile that ships with the machine may be complex for novice users to modify.

Key Features
  • 32-bit Silent Mainboard
  • Auto Leveling Upgrade Fast FDM Printer Integrated Structure Design
  • Large Print Size & Auto Leveling
  • Removable Magnetic Platform
  • Accurate & Silent Printing
  • PEI Spring Steel Magnetic Platform
  • Automatic bed leveling system
  • High print speeds
  • Advanced cooling design
  • Included Cura profile needs optimizing
  • Kickstater-style launch may turn off some users

6. Best 3D Printer for Miniatures: Phrozen Sonic Mini 4K LCD Resin 3D Printer

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If you want to print models with a great deal of fine detail, the Phrozen Sonic Mini 4K should be at the top of your list. The Sonic Mini 4K can print high-resolution models with fewer than 2 seconds per layer curing time. This translates to great detail and speed, but you’ll pay for the price difference between the Sonic Mini 4K and other MSLA 3D printers, such as the Anycubic Photon.

In our testing, we found the Sonic Mini 4K’s ability to produce fine details as advertised, so this printer excels at printing tabletop gaming miniatures and small sculptures. In addition to the high XY precision, the software-enabled anti-aliasing provided by the ChituBox app makes the Z-stepping nearly invisible even at the standard 50-micron layer height.

The Sonic Mini 4K’s build platform was difficult to level, and Phrozen’s contradictory instructions can make the process intimidating for a first-time user. The quality of a print can be highly dependent on the initial calibration of the build platform, so be prepared to spend some time adjusting this printer.

Key Features
  • Ultra 4K Printing Precision
  • Mono-LCD Screen
  • Ample Printing Volume
  • Multi-Resin Compatibility
  • User Satisfaction Guaranteed
  • 4K resolution gives highly detailed XY accuracy
  • Native integration with ChituBox app
  • Difficult bed leveling process
  • Review unit had some machining issues

7. Best Large Format Resin 3D Printer: ELEGOO Saturn MSLA 3D Printer

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The Elegoo Saturn is the larger version of the Elegoo Mars series of printers, which offer sturdy construction at an affordable price. Saturn takes this formula to its extreme by providing a large 7.55 x 4.72 x 7.87-inch build volume while simultaneously enhancing the resolution of the masking LCD. The 2.5-second per-layer curing time of the Mono LCD enables Saturn to print more parts in the same amount of time as the Mars series of printers with a smaller format.

Elegoo has developed a two-bolt bed leveling system for Saturn that makes bed leveling quick and painless. Saturn’s native integration with the Chitubox slicer app makes setting it up and using it a simple process suitable for novice and advanced users.

Saturn has a build volume of 280.46 cubic inches, significantly increasing from the smaller Elegoo Mars 2 Pro’s 100.81 cubic inch build volume. Saturn is an ideal solution if you’re looking for a resin printer that offers a large build volume without sacrificing print quality. Still, you may need to check Amazon multiple times before you find one.

The Elegoo Saturn is the larger version of the Elegoo Mars series of printers, which offer sturdy construction at an affordable price. Saturn takes this formula to its extreme by providing a large 7.55 x 4.72 x 7.87-inch build volume while simultaneously enhancing the resolution of the masking LCD. This, along with the 2.5-second per-layer curing time of the Mono LCD, enables Saturn to determine 

Key Features
  • 4K Monochrome LCD
  • Matrix UV LED Light Source
  • Faster printing speed
  • Larger build volume
  • Higher precision and easier printing
  • Quality Prints and Consistent Success
  • Off-Line, and WLAN Print
  • Exceptionally large build-volume-to-price ratio
  • Rigid dual-Z linear rail system
  • Difficult to find in stock

8. Best 3D Printer for Professionals and Small Businesses: Dremel DigiLab 3D45-01 3D Printer

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We consider various factors in evaluating a 3D printer, including setup and operation simplicity, print quality and consistency, build volume, software, filament, connectivity, and cost. The Dremel DigiLab 3D45 3D Printer ($1,799) is the closest we’ve seen to a printer that excels in every category. It is primarily designed for product developers, engineers, and other professionals but should also be helpful for higher education. Although it is priced significantly higher than consumer 3D printers, its ease of setup and use and its ability to consistently produce high-quality prints make it a viable option for a tech-savvy hobbyist with cash to invest. It is a midrange 3D printer that earns our Editors’ Choice relatively easily.

The 3D45 is a reasonably large printer, measuring 15.9 by 20.2 by 16 inches (HWD) and weighing 47 pounds, making it best suited for a table or workbench. It is a closed-frame printer with a front door made of clear plastic that opens outward and a clear lid that opens upward. This allows for easy access to the print bed when necessary and protection while a print job is in progress.

The 3D45 provides enough connection options to satisfy the majority of users. You can print from a computer using USB, Ethernet, or Wi-Fi, as well as a USB flash drive. Every Dremel printer can connect via the web to the Dremel Print Cloud, where you can slice files (prepare the layers for printing), launch print jobs, and monitor the progress of prints using the 3D45’s onboard 720p camera. The Dremel DigiLab 3D45 is one of the best 3D printers we’ve tested due to its abundant features, accurate printing, and powerful software.

Key Features
  • 4.5″ Full Color Touch Screen
  • Heated Build Plate & Auto 9-Point Leveling
  • Reliable Printing starts with the Extruder
  • Built-in HD Camera
  • Very good print quality.
  • Easy to use.
  • User-friendly yet powerful software.
  • Prints via USB, Ethernet, and Wi-Fi, and from a USB thumb drive.
  • Safe design.
  • Relatively quiet.
  • Limited filament colors compared with competitors.Touch screen is not particularly responsive.

9. Best Pro-Level 3D Printer for Large Objects: Ultimaker S5 3D Printer

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The Ultimaker S5 is a pricey 3D printer, but you get a lot for your money. The S5 is a professional-grade 3D printer with a large build area for a closed-frame printer and dual extruders, allowing you to print with two filament colors or types. In this regard, it includes one spool of Tough PLA (polylactic acid) and one of polyvinyl alcohol (PVA), a water-soluble filament typically used as a temporary support material when printing complex objects.

Additionally, it is simple to install and operate. The S5 can connect to a printer via Wi-Fi or Ethernet, and objects can be printed from a USB memory stick inserted into its front-facing port. It utilizes the open-source printing software Cura, which Ultimaker manages.

Product designers, engineers, architects, and others in need of a machine that consistently produces high-quality prototypes or models should consider the S5 (and the money to spend on a printer that will bring that ability in-house). With its dual extruders, you can print in two colors or multiple filament types. Its print area is significant for a printer with a closed frame, producing good-to-excellent prints in our tests.

Key Features
  • Newest large-format 3D printer from Ultimaker
  • Dual extrusion capability for multi material prints
  • Premium materials used in construction. Heated bed smooths prints and allows for ABS printing.
  • The innovative Print Core system allows for simple swapping of hot ends
  • Water soluble supports allow for smooth surfaces and complex geometry
  • Dual extruders.
  • Large build volume.
  • Quiet
  • Good print quality.
  • Easy setup and operation.
  • Touch screen.
  • Pricey
  • Relatively slow printing at default resolution.

10. Best 3D Printer for Product Designers/Engineers: MakerBot Replicator + 3D Printer

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In our testing, the MakerBot Replicator+ produced prints of good to excellent quality. You can print from a computer via USB, Ethernet, or Wi-Fi, as well as from a smartphone or tablet with the MakerBot Mobile app installed and Wi-Fi connectivity. Additionally, you can print files from a USB flash drive. MakerBot provides its software adaptable to the user’s experience level. Although the Replicator+ is an open-frame printer, the extruder nozzle is behind the extruder assembly. It is difficult to access, reducing the risk of someone being burned accidentally touching the hot nozzle.

The MakerBot Replicator+ is suitable for product designers, architects, engineers, small businesses, schools, and community centers (not to mention individuals with money to spare who are looking for a high-quality 3D printer). MakerBot’s newest models, the Method and Method X have a larger build area and are designed to produce prints that meet stringent engineering standards but are significantly more expensive. The Replicator+ is a general-purpose model that is more affordable and should appeal to a broader audience.

Key Features
  • Your purchase includes One MarkerBot Replicator, One 3D Printer with swappable Smart Extruder+ in Black, 1 PLA spool, 1 flexible build plate, power and USB cables
  • Item’s dimensions – 17.4″ W x 20.8″ L x 16.2″H | Build volume – 7.6” W x 11.6” L x 6.5” H / 573 Cubic inches | Power requirements – 100-240 V, 50-60 HZ | Material diameter – 0.069” | Camera Resolution – 640 x 480 | Operating Temperature – 60-90°F]
  • Works with MakerBot PLA Material – Large Spool, Small Spool & MakerBot Tough Material – Large Spool, Additional materials such as bronzefill, copperfill, and woodfill
  • The only 3D printer tested by NIOSH for environmental safety in the classroom or office space.Aluminum Casting and Extrusions for Motion Components
  • Winner of PC Mag Editor’s Choice Award, iF Design Award, Techcrunch best Classroom 3D printer
  • Easy to use.
  • Very good print quality.
  • User-friendly yet powerful software.
  • Prints via USB, Ethernet, and Wi-Fi, and from a USB thumb drive.
  • Safe design for an open-frame printer.
  • Relatively quiet.
  • Printer setup through MakerBot Mobile app can be tricky.
  • Somewhat pricey filament.

Factors to consider when printing in 3D printer

When considering additive manufacturing, there are several essential design considerations for 3D parts to keep in mind. Specifically, the following five elements are required to achieve a perfect balance in creating your product: The equilibrium between size, resolution, thickness, orientation, and material selection will help ensure the functionality and beauty of your creation.


Scale is a factor to consider when designing an item. Each technology has its optimal format, with some being larger than others.

The FDM machine’s maximum size is 16 inches by 14 inches by 16 inches. If your part is larger, it can be sectioned before fabrication and then professionally glued together.

The fabrication time will depend on the size of your pieces. More significant parts require more time and materials to produce, resulting in higher costs.

The resolution

Resolution refers to the thickness of each layer of material applied during additive manufacturing. Depending on the technology used, a thinner layer can reduce the appearance of surface flaws or ridges. Before post-processing, a surface or face with a higher resolution is higher quality and smoother. The finer the details and the longer the manufacturing time, the thinner the layers.

Choose SLA (Stereolithography) technology, which has a layer thickness of up to 25 microns, for a very high-resolution object (0.025mm). SLS technology offers exceptionally high resolution, 100 microns (0.1mm). Normal FDM layer thickness is 0.25 millimeters (0.25 microns), and we also provide high-resolution printing (0.175mm). It is possible to print with a resolution that is even lower (330 microns, 0.330mm). This is a viable option for quickly manufacturing larger, less aesthetically pleasing objects at a lower cost.

Wall thickness

The wall thickness of a component is a fundamental design characteristic that ensures stability, precision, and tolerance for an additively manufactured part. A thinner material reduces construction time, but if it is too thin, it can become brittle and have less precise characteristics.

Thin components manufactured with SLS are more susceptible to warping due to the manufacturing process. During the manufacturing process, SLS components are subjected to high temperatures and the weight of the powder. As the material used in SLS cools and solidifies, it can also contract. With a thickness between 1 mm and 3 mm, it is easier to achieve the geometric stability of these characteristics. It is still possible to achieve a thickness of at least 0.4 mm. This is, however, riskier.

FDM, for instance, typically recommends a minimum thickness of 1.6mm.

The orientation

Orientation in 3D printing refers to how the part is positioned on the print platform. It can be placed horizontally, vertically, or at an angle. Correctly orienting components for fabrication is a crucial step affecting the final product’s quality, particularly in geometric dimensions and error tolerance. Energy consumption and the size of required support structures are also directly affected. These variables contribute to the total price of the component.

Orientation may also vary based on the technology employed. Due to how FDM layers are printed, the printed part has a very high elasticity along the X-Y axis but exhibits more excellent elasticity along the Z axis. Inadequate preparation at this stage can make the lines between each layer visible, detracting from the aesthetics of your components. Specific orientations are therefore preferred for curved shapes. In certain instances, the orientations will be more effective if they extend beyond the surface, necessitating additional support.

Unless otherwise specified, we will position your components to have the optimal balance between surface quality and component strength.

The selection of material

Depending on the method you choose, there are a variety of 3D printing materials from which to choose. Typically, your decision is determined by the constraints that apply to your component. If your component requires specific resistances, it is essential to select materials with care. Consider ULTEM if, for instance, it will be exposed to extremely high temperatures or chemical solvents (in FDM technology). If impact resistance is required, polycarbonate is an excellent choice.

Additionally, SLA technology offers attractive resins for a variety of applications. Select flexible resin if you’re looking for a material with rubber-like properties. If you wish to create a lost wax casting, “castable wax” resin is available for purchase. Alternatively, ABS (FDM), Nylon (SLS), and acrylic resin (SLA) will do an excellent job at a reasonable price if you want to have the object in your hands without a specific purpose.

Design balance

The dimensions, resolution, thickness, orientation, and choice of material are essential components of a 3D-printable object.

When these factors are considered and balanced, you will obtain a functional component that meets your requirements.


The HP Jet Fusion 3D 4200 is ranked first for the second consecutive quarter, with its total output increasing from 2,437 in Q1 to 5,087 in Q2. The Formiga P 110 remained second, increasing the total by fifty percent from 1,695 to 2,795. A little over 1,000 prints have not diminished the performance of the SPro 230 in position 3.

Yes, jewelry can be 3D printed. 3D printing is a promising manufacturing technique for jewelry because it provides the level of customization and design freedom required to create unique jewelry.

For 3D printing, powdered forms of titanium, steel, stainless steel, aluminum, copper, cobalt chrome, titanium, tungsten, and nickel-based alloys are available, as are precious metals such as gold, platinum, palladium, and silver.

Solid Concepts, a Texas-based company, demonstrated a 3D-printed metal M1911 pistol using an industrial 3D printer in 2013. Oceania Defence, a New Zealand-based company, demonstrated 3D-printed titanium suppressors that are 50 percent lighter than conventional suppressors in 2014. The Grizzly bear is a 3D-printed model. Prints more parts simultaneously as the Mars series of printers with a smaller format.

On average, a 3D-printed object can take anywhere from 30 to 12 hours to print. Depending on the size and complexity of your 3D model, this process may even take several days.

The ability of a 3D printer to create anything expands the options for businesses seeking innovative promotional products. Creatively produce something they’ve never seen before, and you’ll attract an abundance of customers.

Prices for inexpensive 3D printers range from $100 to $400. Afterward, hobbyist 3D printers can cost up to $1,000. The next level of enthusiast and professional 3D printers is between $1,000 and $10,000.


Customers are essential to the success of any business, and as a result, customer satisfaction becomes an integral part of their strategy. Industrial 3D printers have altered how companies deliver precisely what their customers want by allowing them to stay ahead of the competition and provide customers with what they desire. Customers’ expectations have changed because they now want their items quickly and efficiently.

3D printing has a vast and diverse array of benefits. Numerous industries are beginning to incorporate 3D printing into their operations to benefit from the technology in various ways. It is a technology that has expanded significantly in recent years and will continue to expand as its capabilities are refined. When all of the benefits of 3D printing are considered, it is evident that this technology will soon surpass conventional methods; it is only a matter of time.

Unique to 3D printing is the capacity to print complex shapes and interlocking components without requiring assembly. It is possible to create intricate small shapes quickly and cheaply. Developing and producing different shaped objects without requiring specialized tooling provides businesses with greater production flexibility and reduces production costs. The strength of 3D printing is that it fosters creativity and is ideal for on-demand customization. It grants companies the ability to design and create products in ways never before seen. It is a process that liberates the imagination because there are virtually no limitations. It can revive obsolete designs for various industries where components have become obsolete.

Although 3D printing is a relatively new technology, its popularity has increased to the point where it is now affordable. The number of printers sold is growing at an astounding rate, and what was once a niche technology available only to those who could afford and use it has now spread to numerous industries. This accessibility has altered the manufacturing process in a way not seen for decades.

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