3D Printing Archives

3D Printing

Formlabs has announced new pricing for educational institutions. Their goal with this initiative is to drive innovation and creativity in academia and beyond. The price drop will enable teachers, students, and researchers across all manner of schools and colleges. But who is included in Formlabs updated educational pricing? And what does the pricing include? Let’s dive in.

Formlabs Updated Educational Pricing

Formlabs, the largest supplier of professional stereolithography (SLA) and selective laser sintering (SLS) 3D printers, just announced new pricing for educational institutions. According to their announcement, this pricing applies to accredited school from any level of education including K-12.

So what does the Formlabs updated educational pricing include? This transformative program includes a 10% discount on Formlabs 3D printer packages and complimentary access to Open Material Mode (OMM) for eligible institutions. Making these cutting-edge tools more accessible empowers your institution to explore new frontiers, foster creativity, and drive innovation.

Formlabs 3D Printer Packages

What 3D printers does the updated educational pricing apply to? The discount encompasses the entire array of Formlabs exceptional printers, including the Form 4 and Form 4B, which boast a remarkable 99% reliability rate as verified by independent third-party testing. The offerings also extend to the Form 4L and Form 4BL for large-format SLA 3D printing and the Fuse 1+ 30W, an SLS 3D printer engineered for maximum output with minimal waste.

Open Material Mode

Each educational printer package purchase also comes with complimentary access to Formlabs Open Material Mode, a feature valued between $2,499 and $4,999 based on the printer model. This access grants unparalleled material versatility, allowing users to experiment with a diverse range of 405 nm resins (SLA) and 1064 nm powders (SLS). Such versatility opens the window to both a deeper exploration of material science and significantly expands research possibilities, enabling educational institutions to push the boundaries of innovation and discovery.

3D Printing Materials

Formlabs provides a wide variety of materials: powders and resins with varying applications. While the new pricing for educational institutions does not apply to these materials, all Formlabs customers are eligible for bulk material discounts. Departments can reduce research project and classroom instruction costs by purchasing larger amounts of printing materials upfront.

Bringing Innovation Into the Classroom and Beyond

From research to classroom learning, the Formlabs updated educational pricing opens the door to opportunities. With access to these high-quality SLA and SLS printers, students and faculty alike can learn, create, and grow to shape not just their future, but ours as well. There is, however, more to the process than simply purchasing a Formlabs 3D printer package. There’s also set up, materials, and troubleshooting. That’s where EAC comes in.

What does EAC bring to the table?

Ordering through us doesn’t just mean you get industrial-grade Additive Manufacturing equipment. We also provide the expertise crucial to realizing your newest machine’s true benefits. From support services and material sourcing to consulting and assessments, we enable you to make the most of your 3D printer.

Achieve fast time-to-value on your printer and ensure it stays fully functional through daily use. One printer or many, we’re here to help you reach your full 3D printing capability so you can stay focused on business goals.

Contact Us today to verify your eligibility. Together, let’s empower the next wave of leaders and thinkers, driving forward the vision of more efficient and innovative product development.

CONNECT WITH US

For teams working with large-scale 3D printing, the Formlabs Form 4L and Form 3L offer high-quality, reliable options for producing larger parts with detailed finishes. Both models bring high precision to industrial and commercial applications, but with different features that suit various needs. While the Form 3L is a solid choice for in-house, office-friendly production, the Form 4L takes large-format printing to a new level with even faster speeds and enhanced capabilities for intensive workflows.

Here’s a detailed look at how the Form 4L and Form 3L compare.

1. Build Volume and Applications

Form 3L

With a build volume of 33.5 × 20 × 30 cm (13.2 × 7.9 × 11.8 in), the Form 3L supports a range of larger prototypes and models, making it versatile enough for office or factory environments. Ideal for businesses looking to move large-scale prototyping in-house, the Form 3L is capable of printing life-sized models and complex parts that were previously outsourced.

Form 4L
With a build volume of 35.3 x 19.6 x 35.0 cm (13.9 × 77 × 138 in), the Form 4L offers a similar build volume but with enhancements in speed and material options that make it ideal for high-throughput production. Designed for faster turnarounds on large or intricate parts, it’s well-suited for users with greater volume needs or those who require extensive material compatibility.

Winner: Draw – Both models offer substantial build volumes, but the Form 4L adds performance advantages that may benefit high-demand environments.

2. Printing Technology

Form 3L
Utilizing Low Force Stereolithography (LFS), the Form 3L incorporates two Light Processing Units (LPUs) to ensure consistent detail across the entire build platform. This technology minimizes peel forces, resulting in smoother surfaces and reliable print success, even on complex parts.

Form 4L
The Form 4L employs Low Force Display (LFD) technology, which speeds up production by curing entire layers in one go. This layer-by-layer curing allows for faster prints without compromising accuracy, making it an efficient choice for production settings where time is essential.

Winner: Form 4L – The Form 4L’s LFD technology offers a speed advantage, especially for large-format prints.

3. Speed and Throughput

Form 3L
The Form 3L is optimized for high-quality prints, with a balanced speed suitable for most in-house prototyping needs. Draft Resin and other materials can be used to accelerate print times, though complex or large parts will take more time.

Form 4L
With its LFD engine, the Form 4L provides significantly faster print speeds. This capability makes it a better option for users needing rapid production cycles, especially in industries where large parts or quick turnarounds are critical.

Winner: Form 4L – The speed boost of the Form 4L enables faster production, making it ideal for businesses with high demands.

4. Material Compatibility

Form 3L
The Form 3L supports a wide selection of Formlabs resins, ranging from standard prototyping materials to engineering resins. Its dual-cartridge system allows for uninterrupted printing, particularly useful for long or multi-day prints.

Form 4L
The Form 4L goes further, expanding material compatibility to include third-party resins and more specialty materials, such as ceramics and polyurethanes. This open-material platform makes it highly adaptable for industries requiring specialized properties in their parts.

Winner: Form 4L – The broader range of certified materials provides greater flexibility for complex applications.

5. Ease of Use and Workflow Integration

Form 3L
With features like automatic resin dispensing and the PreForm software, the Form 3L is designed for intuitive use with minimal supervision. In-field repairs for components like the Light Processing Units and the optics window add to its practicality in various work environments.

Form 4L
The Form 4L includes similar user-friendly features but also integrates more advanced diagnostic tools and remote monitoring through Formlabs’ Dashboard. This setup allows users to track and manage prints from anywhere, ideal for larger operations requiring remote oversight.

Winner: Form 4L – Additional diagnostic and monitoring capabilities make the Form 4L better suited for busy production workflows.

6. Reliability and Maintenance

Form 3L
Designed for reliability, the Form 3L includes user-replaceable components that support 24/7 uptime. Integrated sensors help maintain optimal print conditions, allowing for consistent results even during lengthy print jobs.

Form 4L
The Form 4L’s fewer moving parts and advanced sensors provide a higher success rate, with less maintenance required over time. Its re-engineered consumables are built to last, adding to its suitability for demanding production schedules.

Winner: Form 4L – Enhanced reliability features and lower maintenance demands make the Form 4L preferable for continuous operations.

7. Part Quality and Finish

Form 3L
The Form 3L delivers a smooth surface finish and precise detail across large parts, thanks to its dual LPUs and refined resin management system. Printed parts resemble injection-molded quality, making it a great choice for high-fidelity prototyping.

Form 4L
In addition to matching the Form 3L’s quality, the Form 4L offers sharper details with LFD technology. The highly collimated light source and anti-aliasing features allow for subpixel-level precision, producing parts that require minimal post-processing.

Winner: Form 4L – Superior optics ensure the highest quality, particularly on intricate or production-grade parts.

8. Which Printer Should You Choose?

Choose the Form 3L if:

You need a reliable, large-format printer for in-house prototyping.
Your production volumes are moderate, and speed is not the top priority.
You want an affordable entry into large-format printing with versatile material options.

Choose the Form 4L if:

Fast print speeds and large-volume production are critical.
You need compatibility with third-party or specialty materials.
Your workflow demands a higher success rate and advanced diagnostic features.

The Form 3L and Form 4L are both strong contenders for large-format printing, each with distinct advantages depending on your needs. The Form 3L offers robust, affordable large-scale printing, ideal for prototyping and occasional production. Meanwhile, the Form 4L is built for higher productivity, with enhanced speed, material flexibility, and reliability. For businesses focused on scaling production or working with diverse materials, the Form 4L is likely the better investment, while the Form 3L remains an excellent choice for those prioritizing quality and cost-efficiency.

For businesses and professionals in need of fast, high-quality 3D printing, the Formlabs Form 4 and Form 4L each offer distinct advantages. Both models are known for precision and reliability, making them well-suited for industrial prototyping and production applications. The Form 4L, however, provides a larger build volume, allowing for more efficient production of larger parts as well as the ability to print larger quantities of smaller parts.

Here’s an overview of their key features and how each printer may suit different production requirements.

1. Build Volume and Part Size

The Form 4 is a powerful choice for small to medium-sized parts with detailed features, but the Form 4L is designed for larger applications.

Form 4: With a build volume of 20.0 × 12.5 × 21.0 cm, it’s well-suited for high-precision prototypes, small components, and assemblies.
Form 4L: Expands to a build volume of 35.3 × 19.6 × 35.0 cm, accommodating parts that are up to 4.6x larger than those possible with the Form 4. This enables production of sizable prototypes and large-format industrial parts. Additionally, the large build volume allows for printing of higher numbers of parts.

Winner: Form 4L – Perfect for large parts and batch printing without compromising on quality.

2. Print Speed

Both the Form 4 and Form 4L use Low Force Display (LFD) technology for fast and precise printing. The Form 4L’s larger build area can handle larger layers more quickly, which speeds up the printing process for big parts.

Form 4: Ideal for fast small-batch or single-part production, with the ability to complete most prints within two hours.
Form 4L: Capable of producing large parts in under six hours, making it an excellent option for industries needing big parts on tight timelines. Also, the larger volume is nearly 3 times as large as the Form 4. In that case, the 4L is actually much faster than the Form 4 when printing parts that would normally only be printed one at a time on the Form 4

Winner: Form 4L – Efficient for larger parts and quick prototyping of multiple parts simultaneously.

3. Print Quality and Surface Finish

Both printers offer high-quality finishes and exceptional detail, with anti-aliasing and advanced optics for smooth, sharp edges.

Form 4: Provides dimensional accuracy within ±0.15% and delivers surface finishes that rival injection molding.
Form 4L: Matches the print quality of the Form 4, ensuring that large parts maintain the same smooth surface finish and high level of detail.

Winner: Draw – Both printers offer exceptional quality, with Form 4L retaining the same precision on larger parts.

4. Materials and Versatility

Both models support a vast range of Formlabs resins and are compatible with certified third-party materials, adding to their versatility.

Form 4: Optimized for engineering-grade materials, including impact-resistant, flexible, and flame-retardant options.
Form 4L: Supports the same extensive material range but allows for larger quantities, which is essential for sizable industrial parts or high-volume production.

Winner: Draw – Both printers provide robust material compatibility, giving users flexibility across applications.

5. Ease of Use and Workflow Integration

Formlabs prioritizes ease of use and smooth workflow with PreForm software, integrated cameras, and remote monitoring options for both printers. The Form 4L adds features like a 5L Resin Pumping System and automatic resin dispensing to handle the demands of large-scale printing.

Form 4: Simple enough for new users to operate within 15 minutes, with a straightforward setup process.
Form 4L: Adds efficiencies like automated resin handling, reducing manual intervention for large prints.

Winner: Form 4L – Simplified for high-volume work with advanced resin management.

6. Reliability and Consumable Management

The reliability of both the Form 4 and Form 4L is reinforced by intelligent control systems, validated print settings, and re-engineered consumables for long-lasting performance.

Form 4: Features factory calibration and light touch supports to reduce peel forces and prevent print failures.
Form 4L: Includes the same reliability features and is built to handle the additional load of larger prints with robust consumables and advanced diagnostic tools.

Winner: Draw – Both printers are engineered for dependable performance, with the Form 4L optimized for bigger prints.

7. Post-Processing

Both printers integrate with Formlabs’ Form Wash and Form Cure systems Both machines also offer a flexible build plate (Form 4L Flexible Build plate available soon).

Form 4: A flexible build plate option for the Form 4 means part removal is very simple.
Form 4L: The Form 4L also offers a flexible build plate.

Winner: Draw – Both printers offer flexible build plates for easy part removal..

8. Pricing and Value

The Form 4 offers a cost-effective solution for small to medium-sized parts with high-quality output. The Form 4L, while more expensive, justifies its price with a larger build volume, faster production times for big prints, and lower operational costs for batch production.

Form 4: Ideal for smaller businesses or those who prioritize precision in compact prints.
Form 4L: Suited for high-volume, industrial applications where large-part production is essential.

Winner: Depends on need – Form 4 for affordability, Form 4L for large-scale production and batch printing.

Which Printer Should You Choose?

Choose the Form 4 if you need a high-quality, compact solution for prototyping and producing small parts, especially in a cost-effective setup.
Choose the Form 4L if you require a larger build volume, faster print speeds for big parts and multiple parts, and an optimized workflow for high-volume production.

Both the Form 4 and Form 4L offer outstanding value for different production needs. The Form 4 provides a powerful, affordable option for precise smaller parts, while the Form 4L enables faster, large-scale production without compromising on quality.

Whether you’re focused on cost-effective prototyping or large-scale production, you can find both models on EAC Additive’s e-store to fit your specific manufacturing goals.

In the world of professional-grade 3D printing, the Formlabs Form 3+ and Form 4 are both stand-out, premier options. Both models deliver exceptional part quality, meeting the demands of industrial prototyping and production. However, the Form 4 introduces MSLA (Masked SLA) technology, enhancing speed, reliability, and automation.

This comparison breaks down the key differences, strengths, and trade-offs to help you decide which model best fits your needs. You can purchase both of these printers on the EAC Additive eStore.

1. Print Technology Comparison

Both the Form 3+ and Form 4 utilize resin-based 3D printing technology. Both printers cure liquid resin layer by layer using a light source. The primary difference lies in how each layer is drawn and separated from the tank membrane, impacting the printing process’s speed and reliability.

Form 3+: Low Force Stereolithography (LFS):

Utilizes a flexible tank membrane and a moving Light Processing Unit (LPU) ‘laser’.
Rollers press the membrane against the build platform, gently ‘rolling’ each layer onto it, which reduces the risk of print failures and supports a broader range of materials.
The LFS process is slower and requires regular maintenance due to the delicate parts like galvanometers and lasers in the LPU.

Form 4: Low Force Display (LFD):

Employs a durable tank membrane paired with a non-mechanical DLP (Digital Light Processing) display for layer creation.
The DLP display cures an entire cross-section at once, significantly speeding up the printing process.
Features a dimpled surface beneath the membrane to mimic LFS flexibility and reduce wear, with a tilting tank to minimize detachment force.

Winner: Form 4 – While both printers excel, the Form 4’s DLP technology offers faster, more precise results with fewer maintenance requirements.

2. Speed

Speed is a major advantage of the Form 4. Its DLP engine cures entire layers in seconds, resulting in print times up to 5x faster than the Form 3+.

Form 3+: Optimized for quick support printing, but the laser-based system slows down with large or intricate parts.
Form 4: Designed for high-volume production, the Form 4 cures cross-sections at once, dramatically cutting print times.

Winner: Form 4 – Ideal for businesses that need high-speed outputs and rapid production workflows.

3. Print Quality and Accuracy

Both models offer 25-micron resolution, but the Form 4’s improved optics provide better accuracy and detail.

Form 3+: Delivers smooth finishes and fine details, perfect for engineering and biocompatible applications.
Form 4: Produces sharper edges and precise dimensional accuracy, making it a great choice for functional prototypes that need to match injection-molded quality.

Winner: Form 4 – Consistently delivers superior precision, especially on complex or production-grade parts.

4. Material Compatibility

Form 3+: Compatible with a wide range of Formlabs resins, including flexible and dental options, with light-touch supports that simplify post-processing.
Form 4: Expands material compatibility to over 37 certified resins, including third-party options like PU Rigid 1000 and Alumina 4N, opening new possibilities for industrial, medical, and engineering applications.

Winner: Form 4 – Its open platform offers unmatched flexibility with certified third-party resins.

5. Ease of Use and Workflow Integration

Form 3+: Designed with user-replaceable components and a straightforward cartridge system, making it easy to switch materials. However, the flexible tanks require careful handling and have a limited lifespan.
Form 4: Simplifies workflows with more durable tanks and square resin cartridges that are easier to store and use less packaging material.

Winner: Form 4 – With its easier setup and improved consumables, the Form 4 streamlines the printing process.

6. Reliability and Print Success Rate

Both printers are known for reliability, but the Form 4 offers a higher success rate, thanks to fewer moving parts and enhanced sensors.

Form 3+: Uses sensors and light-touch supports to prevent failures but requires regular maintenance due to the many mechanical components.
Form 4: Features advanced sensors that detect issues early, ensuring smoother operations with minimal intervention.

Winner: Form 4 – Its simplified design makes it the better option for continuous or large-scale production.

7. Post-Processing Workflow

Both models integrate with Formlabs’ Form Wash and Form Cure systems, making post-processing simple and efficient.

Form 3+: Easy-to-remove supports and seamless integration with Form Wash and Form Cure ensure professional results.
Form 4: MSLA technology reduces the need for supports, and small touchpoints make support removal even easier.

Winner: Form 4 – Better support management reduces post-processing time.

8. Pricing and Value

Form 3+: It’s a cost-effective solution for smaller teams or businesses seeking high-quality results without a large investment.
Form 4: While more expensive, it offers long-term value with faster production, lower operational costs, and support for sustainable practices by minimizing material waste.

Winner:

Form 3+: Best for those prioritizing affordability.
Form 4: Provides better value for high-volume production environments.

9. Which Printer Should You Choose?

Choose the Form 3+ if:

You need an affordable solution for prototyping or small-batch production.
Prints taking hours vs minutes aligns with your operating rhythm and is acceptable when taking pricing into consideration
You want a reliable, lower-maintenance printer with quick setup.

Choose the Form 4 if:

Fast printing speeds and automation are critical.
You require access to advanced workflow tools and third-party materials.
Your business demands high-volume production with minimal downtime.

10. Final Verdict: Form 3+ or Form 4?

Both the Form 3+ and Form 4 are outstanding printers, each excelling in specific areas. The Form 3+ is ideal for smaller teams or individuals looking for professional results on a budget. Meanwhile, the Form 4 is the clear choice for businesses focused on scaling production, speed, and precision.

If speed, reliability, and versatility are top priorities, the Form 4 offers unparalleled performance. However, for those seeking affordability without sacrificing quality, the Form 3+ remains a fantastic option.

Scanning the press on the topic of Additive Manufacturing, there’s a lot said about the features and capabilities of equipment. Data shows the primary applications of additive manufacturing. The overwhelming use of the technology is in the form of prototyping/iterating. Of course, it makes total sense. Equipment performance is now to the point where we can iterate physical things almost as fast as we can iterate digital things.

However, AM manufacturers and pundits strive to see additive manufacturing take on a more prominent role in end-use part production. Adoption in this role would be a shot in the arm for the AM industry as a whole as unit sales and consumables would dramatically increase. AM sales organizations are intimately involved in sales activities on the ground. They are pressured by manufacturers to pursue implementation of their equipment at production levels and pressured by potential customers to resist these initiatives.

This blog asks, “Are We Asking the Wrong Questions?”

Minimum Viable Product (MVP) in Additive Manufacturing

Minimum Viable Product (MVP) – seeks to launch products that satisfy requirements without any ancillary features. In software, this could be something as simple as a website with a single button that just says, “buy”. It’s easy to pursue this in code as it’s “just” code. Changing is easy. Implementing this concept for physical products is a bit more challenging. Mechanical Engineers are challenged to let go of the perceived ‘industry practice’ that is considered the foundation of product development. Never mind that many of these perceptions are decades old and have never been put into question. Rather than accepting “This is how we’ve always done it”, MVP asks, “Do we need to do it that way?” For instance, take a device that has a number of injection molded parts. Several of these parts may exist internally. Things like fan brackets, routing clips, mounting fixtures, etc. may never see the light of day. Yet, it’s generally accepted that these components would be injection molded. In most instances, the choice of material is made with minimal consideration. Opting for PC-ABS is a common, effortless decision, as its capabilities usually exceed the necessary requirements. This material is readily available, and its affordability makes it an even more attractive option. An engineer’s time is expensive and taking a deeper look at such nominal components to see if other materials or processes could be used is not seen as valuable. In other words, seeing what the minimum viable design for this component is, may not seem viable in the grand scheme of the overall product.

Engineers are hesitant to dive into other possibilities not just because it may take more time to analyze but also because the downstream functions including testing, quality control/inspection, assembly, etc. are more familiar with the performance of these ‘traditional’ materials and methods. Not to mention that certain industries have rigorous criteria for conforming to regulatory requirements.

Capabilities of Additive Manufacturing

Manufacturers, industry press, and AM Sales organizations put a lot of effort into focusing on the features and benefits of their products. Rightly so. The AM product offerings today are staggering. Consider that there are over 2000 manufacturers of AM devices, many of which have very niche applications. The quality, accuracy, and performance of these machines rival (and sometimes exceed) traditional processes such as casting, injection molding, and machining. When someone makes the claim, “you can’t use 3D printed parts for production” they are likely basing their view on an experience they had with a consumer-grade solution and have not witnessed the capabilities that exist today in the commercial market.

Sales organizations lead with capabilities. They ask potential customers about their current equipment capabilities and happily report how much better the capabilities are of the latest and greatest. And customers are grateful to hear about this. They are astounded to hear how this will increase their ability to iterate faster during development. Or, how much better their jigs/fixturing will be when they implement these improved capabilities. This approach does nothing to address the desire to transform volume production by implementing this technology. That’s because it is no longer about capabilities.

A Shift in Additive Manufacturing

Sales and Marketing organizations need to re-tool their approaches. They need to take a more holistic approach to the industry to begin asking the right questions. Organizations that implement additive manufacturing see the benefits of their development efforts. The equipment is easily managed by a single person or a small team that doesn’t require full-time care. Small to medium-sized manufacturers may only print 10-15 parts/month. This is hardly fulfilling the promise of additive to be transformational.

When the conversation turns to using this equipment for production devices, there is immediate pushback. For good reason. The sales pitch promises the ability to produce on the same machine that you proof. The ability to manage quality in line. And the ability to change quickly if needed. None of that is appealing to a manufacturer who has spent months/years developing a product, making sure it meets all requirements and conforms to all regulatory needs.

When a product is developed, typically outside vendors are selected early in the process. These are vendors that appear on their “Approved Supplier” list. Getting on that list involved a great deal of effort on behalf of both parties. Often, manufacturers appear onsite with the vendor to ensure their processes and equipment are validated. Understanding their process control and inspection capabilities is important.

The AM Industry is asking customers to become their own suppliers. To do this, manufacturers will need to acquire the equipment, spend time qualifying the machines and processes, establish rigorous processes to maintain that qualification as well as ensure the equipment is maintained. This requires employees, facilities planning, and ongoing expenses that they never had to worry about when just selecting an approved supplier. Not to mention the increased overhead required in their ERP/MRP systems to ensure the process runs smoothly.

Addressing the entire ecosystem of Additive Manufacturing

Until the industry addresses the entire ecosystem around additive manufacturing and engineers become more comfortable with exploring contemporary alternatives to material and design, it’s going to be a challenge to fully adoption AM for production.

A key component to making this happen will be establishing partnerships with leading, innovative organizations that can guide manufacturers through consultation and assessment of their current state. From there, a trusted partner can ensure viable equipment selection and process improvement will result in future success.