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Shenzhen Adventure technology Co., Ltd.
DLP Ceramic 3D Printer-Standard
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DLP Ceramic 3D Printer-Standard
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Shenzhen Adventure technology Co., Ltd.
Pioneer Park, Longgang District
518100Shenzhen
China
Telephone+86 166 7519 9919
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About us
Introduction to Shenzhen Adventure Tech Co., Ltd.
Company Background
Shenzhen Adventure Tech Co., Ltd., established in 2015, is a high-tech enterprise specializing in ceramic additive manufacturing technology. We are dedicated to providing our clients with comprehensive solutions that integrate ceramic 3D printing equipment, ceramic 3D printing materials, and ceramic sintering processes.
Technology and Innovation
At the core of our company is a specialized R&D team. Our team members include postdoctoral researchers from Tsinghua University and returning scholars from Norway University of Science and Technology, who bring diverse expertise and extensive experience. This combination enables us to remain at the forefront of ceramic 3D printing technology.
Our primary technologies include:
Digital Light Processing (DLP): This innovative technology allows for the rapid and precise printing of complex ceramic structures. Our DLP printers can achieve speeds of up to 700 layers per hour and resolutions as fine as 25 microns, making them among the most advanced equipment in the industry.
Direct Ink Writing (DIW): Our DIW technology utilizes an extrusion method to deposit ceramic slurries, enabling the creation of intricate three-dimensional designs. This method is particularly suited for research applications that require micro-scale structures.
Product Series
Our product offerings include a variety of ceramic 3D and 4D printing devices, each designed to meet specific customer needs:
Light-Curing Ceramic Printers: Utilizing DLP technology, our light-curing printers balance speed and precision, making them suitable for both academic research and industrial applications.
Precision Direct-Write 3D Printers: Employing internationally recognized DIW technology, our printers are equipped with two proprietary software solutions: ADT-Slicer and CAD-Slicer, which ensure precise control of the printing process and 4D printing path planning.
Ceramic Materials: We offer a range of optimized materials, including alumina, zirconia, and biocompatible ceramics. Each formulation is carefully developed to ensure optimal performance during our printing processes.
Market and Applications
Shenzhen Adventure Technology serves a broad array of clients across multiple sectors, including:
Aerospace: Our products are used to manufacture lightweight and high-strength components, driving advancements in aviation technology.
Medical: We support the healthcare industry by providing high-speed ceramic printing equipment that facilitates research and production of artificial bones and bioceramics.
Industrial Manufacturing: Our technology enhances rapid prototyping and custom parts production, improving efficiency in industrial operations.
Scientific Research: Our printers and materials play a vital role in innovative research in ceramics and composites, pushing the boundaries of materials science.
We are committed to understanding the unique needs of each industry to ensure that the solutions we provide exceed our clients' expectations.
Quality Assurance and Service
Quality assurance is fundamental to our operations. We implement rigorous quality control measures throughout the manufacturing process to ensure that each product meets the highest performance and reliability standards.
In addition to product quality, we prioritize customer service. We offer comprehensive after-sales support, including technical assistance and training, to ensure our clients can fully leverage our equipment. Our team is always ready to provide guidance and support, fostering long-term relationships built on trust and collaboration.
Future Outlook
Looking ahead, Shenzhen Adventure Technology is dedicated to continuous innovation and expansion. Our strategic goals include:
Expanding Product Range: We plan to introduce new materials and technologies to further enrich our product line.
Enhancing Service: We are committed to improving our customer support services to provide more comprehensive assistance.
Fostering Collaboration: Partnering with global academic institutions and industry leaders will propel our R&D efforts and help us maintain a leading position in industry trends.
Significance of Participating in the Exhibition
Participating in this exhibition presents an important opportunity for Shenzhen Adventure Technology to showcase our products and innovations. Our objectives are to:
Engage with Industry Leaders: By connecting with potential clients and partners, we aim to explore new collaboration opportunities that drive growth and innovation.
Demonstrate Technological Advancements: The exhibition provides a platform for us to showcase our technologies, allowing visitors to experience the capabilities of our products firsthand.
Gather Feedback: Interacting with industry professionals will help us collect valuable insights to guide our future developments and product improvements.
We invite all attendees to visit our booth to learn more about our solutions and how we can meet your specific needs.
Keywords
- ceramic 3D printer
- DIW 3D printer
- 3d print ceramic
Our Products
DLP Ceramic 3D Printer-Standard
DLP Ceramic 3D Printer-Standard Product Introduction
Product Overview
The DLP Ceramic 3D Printer-Standard is an ultra-fast ceramic 3D printer that utilizes digital light processing (DLP) technology. It features high speed and precision, making it widely applicable in fields such as university research, healthcare, and aerospace.
Product Advantages
- Fast Printing Speed: 700 layers per hour (using alumina as an example)
- High Success Rate: The upside-down sinking forming method combined with a peristaltic filtering feeding system.
- Wide Material Compatibility: Supports oxide ceramics, non-oxide ceramics, bioceramics, piezoelectric ceramics, etc.
- Comprehensive Software Features: Includes functions for capturing images, recording videos, and algorithm corrections.
Product Specifications
- Printing Dimensions: 96 x 54 x 90 mm
- Printing Accuracy: 50 μm
- Wavelength: 405 nm
- Forming Method: Upside-down sinking (the optical unit is positioned above the build platform)
- Supported Materials: Oxide ceramics, non-oxide ceramics, functional ceramics, and other light-curable ceramic materials, as well as photosensitive resins.
Application Scenarios
- University Research: Enables rapid material and structural validation, facilitating research.
- Aerospace: Suitable for complex structures such as turbine blades for aircraft engines, satellite mirrors, and engine nozzles.
- Biomedical: Applications include artificial bones, intervertebral fusion devices, orthodontic aligners, and dental crowns.
- Art Printing: Helps artists transcend the limitations of traditional ceramic manufacturing, creating more diverse and vibrant artworks.
User Experience
The DLP Ceramic 3D Printer-Standard has received positive feedback from users across various fields. University researchers have reported significant improvements in their workflows due to the printer's ability to quickly test new materials and validate structures. Industrial producers have praised our printing speed, which has enhanced their production efficiency. Artists are excited about the new creative possibilities, noting that the printer's capabilities have expanded their artistic horizons. Overall, our respected customers have described our equipment as reliable and user-friendly.
Conclusion and Call to Action
In summary, the DLP Ceramic 3D Printer-Standard stands out for its speed, precision, and reliability, making it an ideal choice for academia. We invite potential customers to experience the capabilities of our printer firsthand.
DLP Ceramic 3D Printer For Laboratory
DLP Ceramic 3D Printer for Laboratory Product Introduction
Product Overview
The DLP Ceramic 3D Printer for Laboratory is a high-precision ceramic 3D printer that utilizes light-curing DLP technology. It offers high accuracy and compatibility with a wide range of materials, making it widely applicable in universities, enterprises, and materials research.
Product Advantages
- High Viscosity Compatibility: The precision scraper effectively levels the material, allowing for the use of high-viscosity ceramic materials.
- Material Savings: The dual-tank structure with one supply and one recovery requires only 80 mL of material to start printing.
- High Optical Accuracy: The 1080P UV light source has an optical distortion of ≤0.1%, with a maximum optical precision of 25 μm.
Product Parameters
- Print Size: 96 x 54 x 90 / 67 x 37.5 x 90 / 48 x 27 x 90 mm (optional)
- Print Accuracy: 50 / 35 / 25 μm (optional)
- Wavelength: 405 nm
- Forming Method: Upward sinking (the optical unit is positioned above the build platform)
- Supported Materials: Oxide ceramics, non-oxide ceramics, functional ceramics, and other light-curable ceramic materials, as well as photosensitive resins.
Application Scenarios
- University Research: Enables rapid validation of materials and structures, aiding scientific research.
- Aerospace: Suitable for complex structures such as turbine blades for aircraft engines, satellite mirrors, and engine nozzles.
- Biomedicine: Applications include artificial bones, interbody fusion devices, dental aligners, and crowns.
- Art Printing: Helps artists break through the limitations of traditional ceramic production, allowing for more diverse and vibrant artistic creations.
User Experience
The DLP Ceramic 3D Printer for Laboratory has received positive feedback from users across various fields. University researchers report significant improvements in their workflows due to the printer's ability to quickly test new materials and validate structures. Artists are excited about the new creative possibilities and note that the printer's features have expanded their artistic horizons. Overall, our esteemed customers have described our equipment as reliable and user-friendly.
Conclusion and Call to Action
In summary, the DLP Ceramic 3D Printer for Laboratory stands out for its precision and reliability, making it an ideal choice for academia. We invite potential customers to experience the capabilities of our printer firsthand.
Direct Writing 3D Printer
Direct Writing 3D Printer Product Introduction
Product Overview
The Direct Writing 3D Printer is a classic 3D printing machine that utilizes the internationally recognized Direct Ink Writing (DIW) technology. It is equipped with two self-developed software solutions: “ADT-Slicer” for slicing and “CAD-Slicer” for path planning. This printer is compatible with various materials, including ceramics, biological substances, and silicones, making it an essential tool for materials research.
Product Advantages
- Self-Developed Control Software: The ADT-Slicer software allows for precise control, enabling efficient and stable printing with the goal of achieving “one-stroke forming.” Paired with the CAD-4D printing engine, it facilitates effortless 4D planning.
- Multi-Material Printing: This printer supports complex multi-material printing tasks, allowing multiple materials to be used in a single print job. It meets the diverse needs of laboratories, from biological research to ceramic material studies.
Product Parameters
- Print Size: 100*100*100 / 120*120*120 / 150*150*150 mm (optional)
- Repeatability Precision: ±100/±50/±15/±5 μm (optional)
- Heating: Supported (optional)
- Light-Curing Assistance: Supported (optional)
- Forming Method: Direct writing without a mold
- Supported Materials: Live cell bio-tissue printing, biomaterials such as collagen, gelatin, bio-silicone, and ceramic materials such as hydroxyapatite, tricalcium phosphate, and barium titanate.
User Experience
The Direct Writing 3D Printer has received high praise from users across various research fields. Laboratory researchers particularly appreciate the printer's multi-material compatibility, which, combined with the self-developed ADT-Slicer and CAD-Slicer software, achieves precise printing results and significantly simplifies workflows. Biomedical researchers report success in printing complex biological structures with various biomaterials, greatly enhancing their research efficiency.
Conclusion and Call to Action
In summary, the Direct Writing 3D Printer stands out for its exceptional multi-material compatibility and precise printing capabilities, making it an ideal choice in the research field. We sincerely invite research institutions and potential customers to experience the powerful features of this printer firsthand, working together to advance innovation and development in materials science and biomedicine.