Design and build a fully functional, all-electric, EV car using sustainable production methods.

The Challenge – Full-Scale Functional Prototyping

One of the challenges of transportation prototyping is building full-scale parts without the need to bond multiple pieces together. Industrial 3D printers allow large components to be printed in one piece. For instance, Massivit’s gel-based 3D printing technology uses UV light to cure large components on-the-fly while printing. This enables ultra-fast creation of full-scale components that can then be reiterated and quickly printed again within a few hours, as needed. Large car panels, train covers and truck grills alike can be produced with relative ease. The case study below explores how LSAM (large scale additive manufacturing) is serving faster design and development lead times as well as sleek new design possibilities.

The Players

Rafael Corazza Ronchetti, a former Lamborghini and Audi designer for Super Cars, is now a Professor of Industrial Design at SCAD (Savannah College of Art and Design). He teamed up with a SCAD crew of engineers to bring to life The Aether – an additively manufactured functional EV whose design is strongly influenced by the Ferrari 312 F1 and Porsche 917.

Ronchetti’s colleague, Owen Foster – SCAD Design Associate Chairperson, highlighted the fact that “Gen Z and Gen Alpha drivers are looking for something that will amplify their own unique journey through life.”

Solution – Fully 3D Printed EV Concept Car

The Aether – ‘God of the Upper Atmosphere’ – was manufactured with an entirely 3D-printed body. Custom Design Studio, Hatch Exhibits, partnered with the SCAD team to rapidly print the main car panels using a Massivit 5000 large-scale 3D printer. Based on Gel Dispensing Printing technology, this industrial-grade printer allows automotive design teams to produce any desired geometry based on CAD designs or 3D scans. Inspired by early Ferrari and Porsche models, the Aether is an elegant, convertible EV, designed to attract a younger demographic. It is a fully-electric battery-operated vehicle offering an AI dashboard to enhance the driver experience by matching music to specific driving patterns. The car has transparent internal paneling for tech-savvy enthusiasts.

Less is More – Sustainability Drives Production

Sustainability was a major driving factor for the SCAD team on The Aether. Their decision to create the full-size mockup with industrial 3D printers is largely based on the sustainability factor. Additive manufacturing by nature only uses the minimum required material, as opposed to traditional milling, machining, or clay methods which generate huge amounts of material waste. Moreover, 3D printers enable OEM’s and service bureaus to bring all production inhouse – meaning reduced transportation needs and reduced overall carbon footprint. Another major benefit for automotive manufacturers is centralizing the design and development inhouse in order to safeguard sensitive design IP.

Less of a Puzzle

The ability to print single big panels overcomes the old-age car manufacturing issue of having to bond multiple smaller parts together to make a 1:1 component. This enables greater overall design accuracy.

Elegance & Speed

The Aether was showcased in all its glory at the 2024 Formula 1 U.S. Grand Prix in Austin, Texas. Meeting the production deadline on time, not only did this masterpiece attract attention from car designers and aficionados, but it well-and-truly fulfilled the goal to build a fully functional, all-electric, car using sustainable methods.

Curious to discover large-scale 3D printing benefits? Reach out to us here.

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Large-format 3D printing is advancing rapidly, enabling the creation of intricate and customized parts with reduced waste. In aerospace, companies increasingly produce lightweight components that meet stringent safety standards. The automotive industry benefits from enhanced prototyping capabilities and custom parts production, while the marine sector creates everything from hull components to complex propulsion systems. Theme parks leverage the technology for creating immersive installations that were previously impractical with traditional manufacturing methods.
Despite its promise, several challenges remain, including material selection limitations, printing speed constraints, and production scalability issues. However, ongoing research and development efforts are addressing these hurdles, promising more efficient and versatile applications by 2025.

Key Trends Driving Innovation

Several significant trends are shaping the future of large-format 3D printers across industries:

1. Material Innovation: The development of advanced materials is accelerating, with a focus on high-performance polymers, composite materials, and metals. This is particularly crucial for aerospace and automotive industries, where lightweight, durable parts are essential. By 2025, we expect a significant expansion in available materials, enabling greater customization and performance optimization.
2. Speed and Efficiency Improvements: While current large-format 3D printing has already reduced production times compared to traditional methods, innovations in print head technology, multi-material printing, and automated post-processing will further shorten production cycles. These advancements are particularly beneficial for industries with high-volume requirements.
3. Cost Reduction Initiatives: The technology continues to drive down manufacturing costs by eliminating material waste, reducing labor expenses, and decreasing the need for complex tooling. As the technology matures, further cost reductions will make large-format 3D printing more accessible to smaller businesses.
4. Digital Integration and AI: The integration of artificial intelligence and advanced digital design tools with 3D printing workflows is revolutionizing the industry. AI-driven design optimization and real-time monitoring during printing allow for greater precision while minimizing material consumption and energy use.

Expected Breakthroughs by 2025

Enhanced Multi-Material Printing

Advanced multi-material printing capabilities will enable the simultaneous production of complex structures incorporating diverse material properties. This breakthrough will particularly benefit the aerospace industry, where components often require varying thermal resistance, conductivity, and flexibility characteristics within a single part.

Automation and Robotics Integration

The integration of robotics with 3D printing will significantly improve production scalability and efficiency. Automated systems will reduce human error, increase consistency, and streamline large part production, especially crucial for automotive and aerospace applications where precision is paramount.

Sustainability Advances

As environmental concerns grow, 3D printing will evolve to support more sustainable production methods. This includes greater adoption of recycled and biodegradable materials, along with more efficient energy usage during printing processes. These advancements will help meet the growing demand for eco-friendly manufacturing solutions.

Industry-Specific Applications and Impact

Aerospace

The sector will see major breakthroughs in producing complex, specialized parts using advanced composites and metal alloys. These innovations will contribute to significant weight reductions, cost savings, and enhanced fuel efficiency for aircraft manufacturers. Tooling and molding options are also on the rise offering a combination of industry-trusted materials from top material providers with AM benefits for complex geometries.

Automotive

Manufacturers will increasingly adopt 3D printing for prototyping, custom parts, and low-volume production. The availability of stronger, more durable materials will drive increased adoption for both interior and exterior components, as well as production line tooling.

Marine

The Marine industry will benefit from faster, more efficient production of large components like custom interiors, dashboards, bespoke extensions, and propulsion systems. Corrosion-resistant materials will extend vessel lifespans, while reduced lead times and costs will drive increased adoption.

Theme Parks

Large-format 3D printing will revolutionize entertainment venues by enabling the creation of unique, immersive environments and attractions. Improved speed and scale capabilities will facilitate the production of complex, large-scale installations and interactive elements.

Future Outlook and Conclusion

By 2025, large-format 3D printing will likely achieve mainstream adoption across industries, driven by continued improvements in speed, cost, and material diversity. Collaborative ecosystems between manufacturers, suppliers, and end-users will accelerate innovation and solution development. The technology’s global expansion will enable distributed manufacturing networks, supporting on-demand production near points of use.

These advancements in large-format 3D printing will reshape key industries, unlocking new possibilities for creating customized, high-performance components at scale. The continued evolution of this technology promises to enhance manufacturing processes, reduce costs, and drive transformation across sectors, making it an essential tool for future industrial development.

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In the ever-evolving landscape of large-scale manufacturing, thermoforming stands out as a versatile and cost-effective process for creating complex components across industries like automotive, aerospace, marine manufacturing, and theme parks. However, traditional tooling for thermoforming, especially for large parts, is fraught with challenges—prolonged production times, high costs, and limited design flexibility often hinder efficiency and innovation.

Massivit’s advanced 3D printing technology offers a transformative solution to these challenges. Using its automated process, manufacturers can produce thermoforming molds rapidly, cost-effectively, and with unparalleled precision. This breakthrough enables the creation of complex, customized designs while reducing waste, labor, and lead times. 

Meeting the Demands of Industries that Think Big

Large-scale industries such as aerospace, automotive, marine manufacturing, and theme parks rely heavily on thermoforming to create durable, lightweight, and high-quality components. In the aerospace sector, thermoforming is instrumental in producing aircraft interior panels, bulkheads, and seating components that must meet stringent performance standards. Similarly, in the automotive industry, elements like dashboards and bumpers demand precision and durability to ensure safety and aesthetic appeal. Marine manufacturers require molds capable of crafting intricate interior panels and robust hull details for yachts, while theme parks depend on large molds to shape scenic elements and ride components that can withstand significant wear and environmental exposure.

Producing these large molds with traditional methods often involves excessive material waste, extended timelines, and high costs. By leveraging advanced 3D printing technology, manufacturers can now meet the unique demands of these industries, delivering molds that combine durability, efficiency, and design flexibility at an unprecedented scale. 

Challenges with Traditional Large-Scale Molds

Creating large-scale molds using traditional methods, such as aluminum casting or composite materials, presents significant challenges in terms of time, cost, and flexibility. The manufacturing process for aluminum molds, for instance, often involves extensive machining and finishing, which can take several weeks or even months to complete. These extended timelines can disrupt production cycles, delaying the delivery of critical components across industries.

In addition to the time investment, the costs associated with traditional mold production are substantial, often making short-run production economically unfeasible. Furthermore, traditional methods impose inherent limitations on design flexibility. Complex geometries, fine details, or intricate features that might enhance the functionality or aesthetics of a part are often difficult, if not impossible, to achieve without significantly increasing production costs and time. These challenges underscore the need for innovative approaches that can streamline mold production without compromising quality or creativity.

Massivit’s 3D Printing Solution

Gel Dispensing Printing (GDP) technology redefines the production of large-scale components and prototypes, offering a revolutionary solution to the challenges posed by traditional manufacturing. In addition, the company’s Cast In Motion (CIM) process enables the creation of massive molds with intricate design details in a fraction of the time required by conventional tooling methods—days instead of weeks or months.

For example, in the aerospace sector, ACS Hybrid Inc. utilized Massivit’s technology to produce thermoforming molds for aircraft components, achieving unparalleled efficiency and quality. The automotive, trucking and marine sectors benefit from custom-designed, durable molds for thermoformed components or carbon parts, meeting the high standards of modern vehicle design.

Why Industries are Switching Technology

Massivit’s 3D printing technology is rapidly becoming the go-to solution for industries requiring large-scale molds, offering unparalleled advantages over traditional methods.

• Speed: drastically reduces production timelines, enabling molds to be created in just days rather than weeks or months, ensuring faster time-to-market.
• Cost-Effectiveness: By eliminating the need for expensive materials and lengthy processes, significantly lowers costs for short- and medium-run production.
• Design Freedom: The ability to produce complex geometries and intricate details that are challenging for conventional tooling unlocks new creative possibilities for designers and engineers.
• Scalability: Massivit’s technology easily adapts to varying production demands, whether for low- or high-volume manufacturing, offering unmatched flexibility.
• Sustainability: The process minimizes material waste and reduces energy consumption, aligning with industry goals for eco-friendly manufacturing.

Conclusion: The Big Advantage of Thinking Big

revolutionizing large-scale thermoforming by delivering faster, more cost-effective, and sustainable solutions for industries that demand precision and innovation. With its ability to produce massive, intricate molds in record time, Massivit empowers businesses to think bigger and achieve more.

Ready to take your production to the next level? Discover how Massivit can transform your manufacturing process today.

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Amusement parks evoke different associations depending on one’s cultural background. Located across the globe, these parks cater to a wide array of expectations and preferences influenced by regional distinctions. A notable example is the marked contrast between European and Asian parks, each showcasing unique features stemming from their cultural heritage and societal customs.

North American Amusement Parks: Epic in Scale

In North America, amusement parks reign supreme in terms of size and spectacle. Many are under the ownership of corporate giants like Six Flags or Cedar Fair. While North American parks prioritize record-breaking thrills over theming and immersion, their vast landscapes often require visitors to traverse considerable distances between parking lots, pathways, and rides. Unlike their European counterparts, North American parks prioritize rides over scenic ambiance, boasting colossal dimensions and an array of adrenaline-pumping machines.

European Theme Parks: Where Storytelling Takes Center Stage

Europe is home to some of the world’s oldest theme parks, inspiring renowned ventures like Disney. Unlike the grandiose attractions found in North America, European parks prioritize theming and storytelling, catering to families rather than solely thrill-seekers. Drawing from European fairytales and fantasy literature, parks like Efteling in the Netherlands enchant visitors with sprawling fairytale forests and immersive experiences.

China’s Grand-Scale Spectacles: Blending Tradition with Modernity

Since the turn of the millennium, China has witnessed a surge in theme park construction, fueled by a burgeoning middle class hungry for leisure and entertainment. Corporate chains like OCT Group and Fantawild have spearheaded the development of grand-scale parks, blending high-quality theming with modern rides, reflecting China’s rapid modernization and cultural heritage.

Japan’s Quirky Thrill Parks: Where Imagination Knows No Bounds

Despite having fewer amusement parks than Europe or North America, Japan stands out for its eccentric and unique thrill rides. These parks prioritize thrills over theming, resulting in vibrant color schemes and quirky storylines. From rafting through ramen factories to interactive rhythm games, Japanese parks push the boundaries of imagination. However, limited space has led to ingenious solutions, with rides stacked atop pathways and buildings, giving these parks a distinctive layered look.

Behind the Scenes: Methods of Fabrication and Manufacturing

Theme park applications extend far beyond mere entertainment, playing pivotal roles in various sectors. In the realm of entertainment, theme parks serve as immersive storytelling platforms, bringing beloved characters and narratives to life through rides, shows, and interactive experiences. Moreover, they contribute significantly to the tourism industry, attracting millions of visitors annually and stimulating local economies through hotel stays, dining, and retail purchases. Theming environments in amusement parks involve a complex process of fabrication, manufacturing, and sculpting to create immersive and captivating experiences for visitors. Traditional manufacturing methods often struggle to meet the tight deadlines and intricate design requirements of these projects. 

Here are a few methods commonly used in the fabrication, manufacturing, and sculpting of theming environments:

• Traditional Sculpting: involves the manual shaping of materials such as clay, foam, or wood to create intricate details and designs.
• Foam Carving and Sculpting: involve shaping expanded polystyrene (EPS) foam blocks into desired forms using hot wire tools, knives, and sanding equipment. Foam sculpting allows for the creation of lightweight and durable scenic elements, including rock formations, architectural details, and themed props.
• Fiberglass Reinforced Plastic (FRP) Molding: is a technique used to produce lightweight and weather-resistant replicas of sculpted forms. A mold is created from the original sculpture, and fiberglass resin is then applied to the mold to produce the final FRP component. FRP molding is commonly used to fabricate large-scale sculptures, architectural features, and themed props for outdoor environments.
  

  

   

• 3D Printing: also known as additive manufacturing, involves the automated deposition of material to create three-dimensional objects based on digital designs. This technology allows for the rapid prototyping and production of complex shapes and structures, including customized props, architectural models, and themed elements. Materials commonly used in 3D printing for theming environments include thermoplastics, resins, and composite materials.
  

  

• CNC Machining: Computer Numerical Control machining is a subtractive manufacturing process that uses computer-controlled machines to precisely carve, cut, or mill materials such as wood, plastic, or metal. CNC machining allows for the production of highly detailed and accurate components, including architectural features, signage, and themed props.
• Vacuum Forming: is a thermoforming process used to create hollow plastic shells by heating a thermoplastic sheet and then vacuum-drawing it over a mold. Vacuum-formed components are lightweight, durable, and cost-effective, making them suitable for large-scale production of themed elements such as signage, scenic panels, and architectural details.

Digital Solutions for Theming: Massivit 3D’s Breakthrough Technology

Conventional production methods in the theming industry are typically labor-intensive and time-consuming. Cast In Motion (CIM) technology offers a solution to these challenges by facilitating a transition to digital fabrication.

By leveraging CIM technology, scenic fabricators can significantly reduce production costs and lead times, sometimes from several weeks down to just a few days. Additionally, unlike traditional manual processes, Massivit’s digital technology ensures brand authenticity and precision as objects are 3D printed directly from a 3D CAD design file.

Advancing Material Science: CIM 84’s Impact on Theme Park Fabrication

Previously, certified materials were primarily accessible to sculptors for use with traditional manual sculpting methods. 

CIM 84, the first material certified for ASTM E84 Class A fire and safety requirements, revolutionizes theme park fabrication. Compatible with Massivit’s 10000-G additive manufacturing system, CIM 84 addresses the industry’s demand for digital fabrication while meeting strict flame-retardancy standards. This advancement empowers fabricators to create compliant, full-scale constructions swiftly, streamlining the digital fabrication process that comply with industry regulations. 

Massivit 3D provides innovative 3D printing solutions tailored for the theming and entertainment industry. Whether designing theme parks, creating themed attractions, or crafting larger-than-life displays, our cutting-edge technology empowers creators to push the boundaries of creativity and captivate audiences like never before.

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Enhancing Marine Sporting Goods with Digital Fabrication and Additive Manufacturing

Automation technologies such as 3D printing are advancing the marine industry by adding flexibility and innovation to design and production processes. In particular for tailored solutions for specific consumer preferences. Inflatable boats manufacturing and small inflatable boat production have notably benefited from 3D printing’s ability to create complex, customized shapes that traditional methods could not achieve economically.

Scalability in Additive Manufacturing

Adopting technologies like large-format 3D printing presents unique scalability opportunities and challenges for marine sporting goods manufacturers. For small enterprises, the flexibility of 3D printing allows for the production of custom, low-volume parts without the need for costly tooling, making it easier to scale operations without substantial upfront investments. In contrast, large manufacturers benefit from the ability to rapidly produce large quantities of components, though they must carefully manage the integration of these new technologies into existing production lines to avoid disruption.

Cost Management in Technology Adoption

Investing in new technologies such as advanced composites and 3D printing systems often involves initial costs. However, these investments can lead to substantial long-term savings through increased efficiency, less waste, and reduced need for physical inventory.

Impact on Traditional Manufacturing

Additive Manufacturing is poised to dramatically disrupt traditional manufacturing norms within the maritime industry, heralding a shift towards more agile and on-demand production models. This technological revolution extends beyond mere innovation, challenging long standing industrial practices by enabling faster, more flexible manufacturing processes that align with the current market’s need for speed and customization.
Traditional maritime production, often characterized by fixed assembly lines and bulk production schedules, faces limitations in its ability to quickly adapt to changing consumer demands and complex design requirements, particularly in segments like Rigid Inflatable Boats (RIBs) and small inflatable boat manufacturing.
In contrast, AM offers the capability to produce complex marine parts and equipment directly from digital files, reducing lead times and eliminating the need for extensive inventory. This not only enhances operational efficiencies but also significantly reduces waste and overhead costs associated with storing large quantities of parts. Moreover, the precision of 3D printing allows for the production of components that are lighter, stronger, and more durable, offering improvements in product performance and lifecycle.

Sustainable Practices in Marine Manufacturing

The emphasis on sustainability within manufacturing processes has never been more critical. Eco-friendly practices significantly contribute to environmental preservation and enhance brand perception, aligning with the growing consumer demand for sustainable products. Moreover, these practices ensure compliance with stringent global environmental standards, potentially opening new market opportunities and reducing regulatory risks.
In the marine sporting goods industry, embracing sustainable practices goes beyond adhering to environmental regulations; it represents a strategic approach to reducing costs and enhancing operational efficiencies. As the industry progresses towards a more sustainable future, companies are discovering that eco-friendly innovations align with cost-saving opportunities, particularly noted in motor boat manufacturing and inflatable boats production.

Cost Savings from Eco-Friendly Materials and Technologies

The use of natural fiber composites in surfboards and SUP boards production serves as a prime example of how sustainable materials can lead to significant cost reductions. Sourced from renewable resources, these materials are not only lighter and more durable but also require less energy in the manufacturing process. This reduction in energy consumption translates directly into lower production costs. Moreover, natural fiber composites can be less expensive than traditional materials like fiberglass, especially considering the long-term savings from reduced waste disposal fees.

Operational Efficiencies through Green Technologies

In sectors like hydrofoil craft and small inflatable boat manufacturing, the integration of hybrid and electric propulsion systems has demonstrated substantial operational efficiencies. These systems are quieter and cleaner, reducing environmental impact and also offering lower maintenance and fuel costs compared to traditional gasoline engines.

Meeting Environmental Regulations

The marine sporting goods industry, particularly sectors like inflatable boats and hydrofoil craft, is increasingly governed by stringent environmental regulations designed to minimize ecological impacts. The adoption of new technologies such as additive manufacturing not only aligns with these regulatory frameworks but also enhances compliance, thereby safeguarding the industry’s sustainability goals.
Manufacturers of water sports equipment, including kayaks and windsurfing boards, must adhere to international standards such as the IMO’s marine pollution protocols and regional regulations like the EU’s Recreational Craft Directive and the EPA guidelines in the U.S. These compliance measures are not merely regulatory hurdles but opportunities to innovate and lead in sustainable manufacturing practices, appealing to a global market increasingly driven by environmental concerns.

Conclusion

The adoption of cutting-edge technologies and materials in the marine sporting goods industry represents a significant opportunity for stakeholders to capitalize on the sector’s immense potential. Despite facing some challenges, the substantial advantages of digital fabrication and additive manufacturing ultimately prevail, offering transformative benefits that far outweigh the obstacles. With the marine industry already valued in the billions and poised for further growth in 2024, investing in the right materials and manufacturing processes is paramount for manufacturers, suppliers, and other industry players.
By embracing innovations such as high-performance materials, innovative molding techniques, and digital fabrication, stakeholders can not only meet the evolving demands of consumers but also position themselves for sustained success in a dynamic market landscape. As the industry continues to expand, those who prioritize efficiency, precision, and sustainability will undoubtedly reap the financial rewards of their forward-thinking investments. The path forward is clear: embracing these advanced technologies is not just beneficial but essential for securing a competitive edge in the burgeoning marine sporting goods market.

Massivit 10000-G Additive

As we advance into the future of marine sporting goods manufacturing, Massivit’s pioneering large-scale additive manufacturing technologies are setting unprecedented benchmarks in the industry. The Massivit 10000 and Massivit 10000-G printers exemplify the transformative capabilities of additive manufacturing, streamlining the production process and significantly reducing timeframes. These advancements not only enhance operational efficiencies but also push the boundaries of design possibilities, enabling the creation of complex, customized marine components that were previously unimaginable. The introduction of the CIM 500 material, known for being the industry’s first isotropic, 3D-printed mold, further underscores Massivit’s commitment to innovation. This material offers exceptional precision and durability, reshaping how products are developed in the marine sector. As we reflect on these technological strides, it is clear that Massivit’s contributions are not just enhancing current manufacturing capabilities but are also paving the way for a more dynamic, efficient, and sustainable future in marine sporting goods production.

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Integration of High-Performance Materials

Advancements in material science play a pivotal role in propelling the marine sporting goods industry forward.

Carbon fiber composites, for instance, are revolutionizing the construction of boat hulls by significantly enhancing their rigidity and reducing overall weight. This leads to increased speed and fuel efficiency, showcasing how cutting-edge materials can transform traditional manufacturing processes.

Epoxy Resins: Similarly, epoxy resins have made a significant impact on surfboard manufacturing. Offering better impact resistance and longevity compared to traditional materials, epoxy resins exemplify the industry’s shift towards more durable and high-performing products.

Polymer-Based Seals and Thermoplastic Composites: In personal watercraft, polymer-based seals, particularly when produced from hydrophobic materials, ensure enhanced sealing performance and durability, crucial for maintaining the integrity of engine compartments. Additionally, thermoplastic composites are favored in kayak production for their ability to endure the rigors of water sports without compromising on weight or durability.

Fiberglass Reinforced Plastic (FRP): Finally, fiberglass reinforced plastic (FRP) has become a staple in marine propeller construction. Preferred for its corrosion resistance and mechanical strength, FRP highlights the industry’s move towards materials that offer long-lasting performance in harsh marine conditions.

Innovative Molding and Fabrication Techniques

The marine sporting equipment industry adopts sophisticated molding and fabrication techniques such as Resin Transfer Molding (RTM) and Reaction Injection Molding (RIM) to enhance precision and efficiency in large-scale production. These methods are pivotal in crafting intricate components that require exact tolerances and superior finishes. RTM and RIM offer distinct advantages over traditional manufacturing processes, including improved material consistency, reduced waste, and faster production cycles, which in turn contribute to significant cost reductions. 

A practical application of these technologies can be seen in the manufacturing of Rigid Inflatable Boats (RIBs), a popular category in the inflatable boat market. RTM is used to create the structural hull, known for its durability and lightweight properties. This process involves injecting resin into a closed mold pre-loaded with fiberglass, carbon fiber, or other composite fibers. The controlled injection ensures consistent resin flow and distribution, eliminating air pockets and potential weak points, which is crucial for the marine environment where strength and hydrodynamics are paramount.

Furthermore, RIM is employed to fabricate the boat’s smaller, more complex parts like consoles and seat bases, where the precise control over the injection parameters allows for robust yet lightweight components that contribute to the overall performance and fuel efficiency of the boats. These techniques not only enhance the product quality but also reduce the production time and costs associated with traditional open mold methods.

From the perspective of industry stakeholders, these technologies are reshaping production strategies by streamlining operations and minimizing overhead costs associated with storage and material handling. Additionally, the ability to quickly adjust and scale production meets the dynamic demands of the market, enhancing service responsiveness and customer satisfaction

Stay tuned for Part Two of our exploration into marine sporting goods manufacturing, where we will uncover the critical role of digital innovation in shaping the future of the industry.

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The Massivit 10000-G will be printing live throughout the duration of the event at Massivit’s Booth 432425, revealing the latest high-speed automation capabilities for custom manufacturing and industrial tooling. Also on show will be large printed parts and molds designed for the automotive, marine, consumer goods, and sporting goods industries.

Visitors to IMTS 2024 can schedule a personal demo of the printer here.

Following the recent launch of the Massivit 3000 large-scale 3D printer designed to answer the needs of the entertainment and advertising industries, and the company’s new strategic collaboration with global chemicals producer, Sika Deutschland GmbH, Massivit plans to unveil the benefits of its full portfolio of printers and materials. In particular, visitors will have the chance to see newly released casting resins, co-developed by Sika and Massivit,  that bring to market automated tooling combined with globally trusted manufacturing materials. These high-performance materials serve a variety of applications ranging from room temperature to extremely high temperatures.

Press contacts are invited to book a booth tour and interview with Massivit’s VP of Global Sales and Marketing, via the contact details below.

“We’re excited to present our pioneering additive manufacturing technology for the first time at this prestigious biannual event” says Avi Cohen, Massivit’s Global VP of Sales and Marketing. “With the recent expansion of our printers as well as new, advanced materials co-developed with Sika, we’re able to provide manufacturers with the ultimate combination of digital automation and high-grade materials. There’s no doubt that IMTS is the perfect platform at which to showcase Massivit’s latest innovations.”

The Massivit 10000 series is designed to automate and expedite industrial tooling. Its Cast In Motion technology speeds up mold production by 80%, replacing traditionally slow and costly methods. The technology is used for a range of processes such as composite materials tooling, Reaction Injection Molding (RIM), and Thermoforming.

Visitors at IMTS will have the opportunity to experience direct printing of complex molds, mandrels, master tools, jigs, and fixtures. Cast In Motion technology, unlike other additive technologies, enables creation of true isotropic molds and eradicates material waste associated with conventional tooling.

About Massivit:

Massivit 3D Printing Technologies Ltd. (TASE: MSVT) is a leading provider of industrial 3D printing systems for the automotive, marine, railway, and additional markets. The company’s solutions enable cost-effective production of large, custom parts, molds, and prototypes at unprecedented speed. Massivit’s vision is to transform manufacturing of large parts from traditional processes to ultra-fast, digital fabrication using industrial-grade materials. The company was founded in 2013 by a team of experts led by Gershon Miller, founder of Objet Geometry (Stratsys Nasdaq: SSYS). Its headquarters are based in Lod, Israel and the company provides its worldwide community with end-to-end services supported through an extensive dealer network.

For additional information, please contact:

Avi Cohen
VP Global Sales
Massivit
Email: avi@massivit.com

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Safety Isn’t Expensive, It’s Priceless

Understanding the true cost of theme park incidents extends beyond the immediate financial impact. Direct costs such as cease of operation, repair expenses, medical bills, workers’ compensation, and legal fees can quickly accumulate, presenting a significant financial burden to park operators.
However, it’s the intangible costs that often carry the most weight. The loss of goodwill, erosion of customer trust, and decline in shareholder value can have lasting repercussions on the park’s reputation and bottom line. Events like the Ferris wheel fire in Orlando, the fire at Europa-Park in Germany injuring seven people, and the bumper car fire at Carowinds serve as stark reminders of the potential consequences of inadequate fire safety measures. Investing in robust fire safety measures isn’t just about mitigating financial risks; it’s about safeguarding the well-being of guests and preserving the park’s reputation as a trusted and safe destination.

Flame Retardance and Smoke Suppression

Stringent fire safety measures are required to ensure the protection of guests and staff at theme parks. One key aspect of these measures is the use of flame retardant materials and effective smoke suppression systems. Flame retardant materials are crucial in construction and public space materials, as they help prevent the spread of fire by slowing down combustion. These materials can include fire-resistant fabrics, coatings, and structural components that are designed to withstand high temperatures and inhibit the ignition and spread of flames. Additionally, smoke suppression systems play a vital role in minimizing the impact of fires by reducing the amount of smoke produced and improving visibility for evacuation efforts.The Authority Figures: Codes & Standards

Various authorities, including local fire departments, building codes organizations, and government regulatory agencies, play a crucial role in setting and enforcing safety regulations that are paramount for theme parks and their visitors. Additionally, international bodies such as the International Association of Amusement Parks and Attractions (IAAPA) and ASTM International contribute to the development of industry standards and guidelines.

The Importance of Fire-Resistant Materials

The importance of selecting fire-resistant materials for various park elements cannot be overstated. These materials play a crucial role in mitigating fire risks and ensuring compliance with stringent fire safety regulations. For instance, water slides may be constructed using fire-resistant materials such as fiberglass reinforced plastic (FRP) or specially treated laminates to withstand exposure to water while providing fire protection. Similarly, roofs in theme parks are often constructed using fire-retardant roofing materials such as asphalt shingles, metal panels, or fire-rated membranes to resist ignition and prevent the spread of fire. Additionally, public spaces within theme parks, such as walkways, seating areas, and decorative elements, may be made using fire-retardant materials such as fire-rated wood, concrete, or non-combustible metals to reduce the risk of fire spread. Structural components of park elements, such as support beams, columns, and framing, may also be made using fire-resistant materials such as fire-retardant-treated lumber, steel, or concrete to provide structural integrity and fire protection.

Keeping the Magic Alive with CIM 84

Massivit 3D is revolutionizing the world of scenic fabrication with its cutting-edge material, CIM-84. This advanced resin offers unmatched versatility and performance, making it the go-to choice for creating captivating and durable elements in themed entertainment. Whether it’s crafting customized scenery, giant true-to-life characters, or interactive selfie points, CIM-84 delivers exceptional quality and detail. With its flame-retardant properties and compliance with strict fire safety regulations, CIM-84 ensures that the magic of theme parks remains safe and enchanting for all visitors.

Conclusion

While theme parks transport us to fantastical worlds, there’s nothing magical about an out-of-control fire in a public arena. That’s why safety reigns supreme from the very beginning. From meticulously selecting fire-resistant materials to following stringent fire safety protocols, theme parks prioritize the well-being of guests and staff above all else.
It doesn’t mean the fun has to stop! Theme parks can still be havens of creativity and wonder. By prioritizing safety first, they ensure a secure foundation upon which thrilling rides and captivating experiences can flourish. Remember, safety isn’t just a priority, it’s the bedrock for generations to enjoy the magic of these enchanting worlds.

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At the core of advertising and brand engagement lies human experience, emotional ties, and memories. Creative 3D pop-out billboard ads, dimensional window displays, and giant endearing POP displays allow for a more physical and experiential shopping encounter that captivates audiences, leaving a memorable impression.

Larger-than-life 3D displays and characters can wow audiences and dramatically elevate brand engagement. This is where large-format 3D printing enters the scene, providing a new realm of advertising with its seamless technology and endless possibilities.

Benefits of Dimensional Campaigns

Dimensional campaigns offer exceptional impact that both traditional advertising methods and screens struggle to match. Businesses can ensure maximum visibility and engagement by strategically placing crowd-stopping displays in high traffic areas.

These larger-than-life advertisements grab attention instantly, leaving a lasting impression on viewers and fostering brand recognition. Moreover, the versatility of dimensional campaigns allows for tailored messaging and precise targeting, ensuring relevance to specific demographics and locations. In addition, dimensional campaigns also provide more bang for the brand’s buck and enable service providers to differentiate their offering with eye-popping displays and elements, which run-of-the-mill-advertising simply cannot do.

Importantly, large-volume 3D printing allows wide-format print shops to increase their profit margins by offering uniquely creative displays, signage and stand-out marketing campaigns.

Key 3D Applications

Print Service Providers and brands can achieve extraordinary retail and outdoor applications by leveraging the Massivit 3000 large-format 3D printer:

1. Dimensional Window Displays: Transform storefronts into captivating showcases that lure consumers in to brick-and-mortar stores by creating any imaginable design dreamt up by brands.

   

2. Giant Point-of-Purchase Displays: Drive sales and capture attention at the point of purchase with eye-catching, giant 3D products and characters that can also be internally illuminated

   

3. Dimensional 2D/3D Signage: Large-scale 2D/3D signage stands out in any environment and utilizes 2D digital printing techniques already mastered by wide format print shops
4. Billboard Displays: Brands can ensure a ‘shock’ factor or make a bold statement with billboards that incorporate 3D elements and leave a lasting impression.

   

5. Custom Mannequins: Create life-like, 3D-printed custom mannequins. Tailor fashion campaigns or produce unique experiential window displays.
6. Unique Channel Letters and Dimensional Logos: Bring brands to life by printing wild channel letters in any geometry and with creative textures. 3D-print logos that pop!
7. Soft Signage & SEG Frames: Do away with conservative aluminium frames. Now you can print your soft signage in any shape or graphic with seamless LED-lit frames.
   
8. Selfie Points: Allow your customers to go viral! 3D-print giant 10x scale products, mascots, and more. Create strong brand engagement through an interactive experience for selfies galore.
9. Vehicle Wrapping: Mesmerize pedestrians with eye-popping bus wraps and designs for movie and product launches on promotional vehicles!

   

10. Tailor-Designed Furniture & Interior Accessories: Enhance interior environments with bespoke design and unique furniture based on any imaginable design.

Premium Materials for Every Campaign 

The Massivit 3000 offers a range of 3 acrylic printing materials tailored for various advertising elements. They provide super-fast printing speed and versatility with supportless printing and immediate curing, which makes them ideal for large, creative, intricate models. Dimengel 300 offers rapid production and transparency for illuminated applications, clear visualization, and perfect suitability for scenic displays.

Gaining a Competitive Edge

In a world where attention is a valuable currency, Massivit’s 3D printing technologies offer a gateway for brands to captivate consumers by bringing the human touch back into brand engagement. By harnessing the power of 3D printing technology, print service providers can discover new levels of creativity, expand their customer base, and differentiate their offering to brands seeking to create a lasting impact. With Massivit, the sky is no longer the limit. It’s just the beginning of a new era in extraordinary brand experiences.

The post Exploring the Power of Large-Format 3D Printing for Epic Marketing Campaigns appeared first on Massivit.

During the exhibition, Massivit launched the Massivit 3000, the latest large-scale 3D printer belonging to its Gel Dispensing Printing product line, designed for high-speed production of large parts, at a competitive penetration price.

Erez Zimmerman, CEO commented: “It was a pleasure to return to the drupa exhibition after the event’s 8-year hiatus. The exhibition enabled the company to reach a diverse customer base from the printing, advertising and global marketing industries. drupa was an excellent platform for our Massivit 3000 launch. At the exhibition we experienced a high level of interest as we showcased use cases and applications that can be printed on the Massivit 10000 and Massivit 3000.”

“The Massivit 3000 enables companies in the advertising and marketing industries to print large-scale objects ultra-fast. These printed items can be used as point-of-purchase displays, window displays, and billboards. Thanks to the launch of the Massivit 3000, we targeted a new audience and signed 15 new agreements during the show.”

“In addition to this successful drupa event, the company received two recent purchase orders, the first of which is for a Massivit 1800 printer from Bombardier – a Canadian company that specializes in manufacturing executive planes and trains. Bombardier plans to use the Massivit printer tomanufacture prototypes and interior parts for its aerospace division. The second order was for a Massivit 5000 from Navistar – an American truck and bus company owned by Volkswagen.

Lastly, I am proud to update that last week we won two prestigious awards at the TCT 3Sixty Exhibition in the UK where we presented the Massivit 3000. We were awarded as Winners of the Consumer Product category. In collaboration with our Italian customer, Woltz Nautic, we used the Massivit 5000 printer, proving our ability to manufacture bath tubs that weigh 100 kg less than standard baths, thereby providing a saving of 260 working hours. The second accolade was awarded for our recently-releasedCIM 84 material, the first 3D-printing material with certified flame retardance that allows companies in the theme park industry to produce flame-rated creative constructionAs reported previously, Disney Imagineering acquired the Massivit 10000 at the end of last year to manufacture parts for theme parks.”

About Massivit 3D Printing Technologies

Massivit 3D Printing Technologies Ltd. www.massivit3D.com  (TASE: MSVT) is a pioneer of large-scale 3D printing solutions for the automotive, marine, railway, furniture, scenic fabrication, and advertising markets. The company’s solutions enable cost-effective production of large parts, prototypes, and molds at unprecedented speed. Massivit’s vision is to transform manufacturing of large parts from traditional processes to ultra-fast, digital fabrication using industrial-grade materials. The company was founded in 2013 by a team of experts, led by Gershon Miller – founder of Objet Geometry. Massivit’s headquarters are based in Lod, Israel, from which it provides services to its international community through a broad distributor network.

For additional information, please contact:

Avi Cohen
VP Global Sales & Marketing
Massivit
Email: avi@massivit.com

Yafit Sulimani
Senior Marketing Team Leader
Massivit
Email: yafit.sulimani@massivit.com

For investor relations enquiries, please contact:

Miri Segal Scharia
CEO
MS-IR LLC
Email: msegal@ms-ir.com
+1 917-607-8654

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