Which Areas Can 3D Printing Model Hand Board Material Be Applied?

Which areas 3d printing model hand board material can be applied?

Introduction: Exploring the Versatility of 3D Printing Model Hand Board Materials

The advent of 3D printing has revolutionized various industries, offering unparalleled opportunities for rapid prototyping, product development, and manufacturing. One of the essential aspects of 3D printing is the selection of the right material for creating model hand boards. These hand boards serve as physical representations of product designs, allowing designers, engineers, and stakeholders to visualize and evaluate the product before mass production. In this comprehensive blog post, we will delve into the various areas where 3D printing model hand board materials find extensive application. From automotive and aerospace to consumer goods and healthcare, we will explore the vast possibilities of these materials across industries.

1. Automotive Industry: Accelerating Product Development and Design Validation

The automotive industry is no stranger to the benefits of 3D printing model hand boards. Designers and engineers utilize these materials to create functional prototypes, allowing them to evaluate the form, fit, and function of automotive components and assemblies. From engine parts to car interiors, 3D printing hand boards enable rapid product development, streamlining the design validation process. The ability to iterate and refine designs quickly not only reduces time to market but also enhances overall product quality and performance.

2. Aerospace and Defense: Pushing the Boundaries of Innovation

In the aerospace and defense sectors, precision and performance are paramount. 3D printing model hand boards made from specialized materials play a crucial role in testing and validating complex aerospace components. These hand boards help engineers assess structural integrity, aerodynamics, and thermal properties before moving to full-scale production. The versatility of 3D printing materials allows for the creation of lightweight yet robust components, paving the way for innovative designs and cost-effective solutions.

3. Consumer Goods: Enhancing Product Visualization and Customization

The consumer goods industry embraces 3D printing model hand boards to bring product designs to life and gain valuable insights into the final product’s aesthetics and functionality. Manufacturers of consumer electronics, home appliances, and lifestyle products use these hand boards to refine designs and solicit feedback from consumers. Additionally, 3D printing enables customization and personalization of consumer goods, allowing companies to offer unique and tailored products to their customers.

4. Healthcare and Medical: Revolutionizing Patient Care and Device Development

The healthcare and medical sectors benefit significantly from 3D printing model hand boards, as they enable the creation of precise medical devices, prosthetics, and anatomical models. Surgeons use 3D printed models to plan complex procedures and practice intricate surgeries, enhancing patient safety and outcomes. Customized prosthetics and implants tailored to individual patients’ needs become a reality through 3D printing. Moreover, medical researchers employ 3D printing to create realistic anatomical models for educational and training purposes.

5. Industrial Design and Architecture: Fostering Creativity and Innovation

In the realm of industrial design and architecture, 3D printing model hand boards act as tangible representations of artistic visions and design concepts. Architects use these models to communicate ideas to clients, helping them visualize and understand architectural plans better. The intricate detailing and accuracy of 3D printed models assist in evaluating spatial relationships and structural integrity. In the realm of industrial design, hand boards facilitate the iterative design process, enabling designers to refine aesthetics and ergonomics efficiently.

6. Education and Research: Inspiring the Next Generation of Innovators

3D printing model hand board materials are invaluable tools in educational settings, allowing students to engage in hands-on learning experiences. In classrooms and research labs, students and researchers use 3D printing to create functional models, prototypes, and scientific instruments. The accessibility of 3D printing fosters creativity and problem-solving skills, empowering the next generation of innovators to think critically and embrace technology.

Conclusion: Embracing the Diverse Applications of 3D Printing Model Hand Board Materials

The applications of 3D printing model hand board materials span across industries, driving innovation, efficiency, and creativity in product development, design, and research. From automotive and aerospace to healthcare and education, the versatility of these materials knows no bounds. 3D printing has transformed the way products are conceptualized, prototyped, and manufactured, ushering in an era of rapid iteration, customization, and precision. As technology continues to advance, and the range of available materials expands, the potential of 3D printing in diverse areas will only continue to grow, shaping the future of various industries and inspiring advancements in science, engineering, and design

Which areas 3d printing model hand board material can be applied?

Almost all industries use photosensitive resin 3D printers in the process of making hand board models, architectural sand table models, home appliance hand board models, medical equipment hand board models, automotive hand board models, office equipment hand board models, computer digital hand board models, etc. Industrial SLA3D printers can be given full play.

Photosensitive resin 3D printer refers to SLA industrial 3D printer with liquid resin as processing material, also known as light-curing 3D printer. With strong modeling ability, it can produce products of any geometry and is widely used in the field of hand board model production.

The production of hand board models has gone through three stages: manual production, CNC engraving to 3D printing, which greatly improves the production efficiency. Due to the high requirements of size and precision of hand board models, the most suitable 3D printing technology is SLA 3D lithography.

SLA 3D printer has its limitation, it can only print specific material – photosensitive resin, similar to ABS plastic. Therefore, photosensitive resin 3D printers are mainly used for making plastic hand board models and are not suitable for metal hand board models.


The appearance hand board is mainly used to check the appearance. Size, other properties of the material is less demanding, photosensitive resin 3D printer can print any shape of the appearance hand board model, the more difficult the product, the higher the efficiency of 3D printing, the lower the cost. Nowadays, most of the appearance hand boards are made by 3D printers.

  1. Structure

Structural hand board has certain requirements on the strength of the material. The photosensitive resin 3D printer can meet some of the structural hand board production. For those with particularly high strength requirements, compound mold process or SLS nylon 3D printer can be used.

  1. Small batch customization.

For some users’ small batch customization requirements, if it is only for indoor general decoration, photosensitive resin 3D printer can be used. If the requirement is specific plastic material or temperature resistance. The strength requirement is high, then silicone composite mold and low pressure infusion process must be used.

  1. Soft plastic hand board model.

Photosensitive resin can be divided into soft material and hard material. Most of the time, hand board models use hard material, a few hand board models use soft elastic material. At this time, soft material photosensitive resin 3D printer has a use. It is usually used to make silicone hand board.

  1. Transparent hand board model.

In the past, transparent hand board models were usually made of acrylic material engraved by CNC machines, but now it is almost completely replaced by photosensitive resin 3D printers. It can produce translucent and fully transparent effects and add other colors on top of the transparency.

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