Dear Valued Customer, Greetings! We, Guangdong Fenghua Zhuoli Technology Co., Ltd., are at the forefront of 3D printing technology, dedicated to advancing various industries with our innovative 3D printing solutions. Today, we are delighted to extend our cordial invitation to you to attend the China International Powder Metallurgy, Cemented Carbide & Advanced Ceramics Exhibition, taking place from March 6 to 8, 2024, at Booth B326, Hall H1, Shanghai World Expo Exhibition Hall, to explore the latest applications and trends in 3D printing within the powder metallurgy and advanced materials sectors. In the current industrial context, powder metallurgy, cemented carbide, and advanced ceramics, as critical branches of material science, are undergoing a revolution driven by 3D printing technology. These materials play a vital role in various fields, including aerospace, automotive manufacturing, biomedical, and consumer electronics, due to their unique properties. Our company's sand-type 3D printing equipment provides more efficient and flexible manufacturing solutions for these industries, enabling rapid prototyping and batch production of complex parts, significantly reducing product development cycles and production costs. Our 3D printing devices are renowned in the market for their high precision, efficiency, and reliability. They can process a variety of powder materials and support multiple printing modes and parameter settings to meet different production requirements. Additionally, our equipment features intelligent monitoring systems that can track the printing process in real-time, ensuring that every part meets the highest quality standards. At the exhibition, we will showcase our latest 3D printing technologies and equipment and share our experiences in applying them in the fields of powder metallurgy, cemented carbide, and advanced ceramics. Our team of experts will also be on-site to answer your questions and discuss the potential applications of 3D printing technology in your business. We sincerely look forward to your presence, to explore the boundless possibilities of 3D printing technology together! Please reply to confirm your attendance, so we can provide you with more information and services regarding the exhibition. Best wishes

Dear partners and friends, In this era of innovation and opportunity, we are proud to invite you to the 22nd China International Foundry Expo, which will be held from July 4 to July 7, 2024 at the National Convention and Exhibition Center in Shanghai, China. As a leading manufacturer of sand 3D printing equipment for foundry, we will showcase our latest technological advancements and product innovations at the show to show you the revolutionary application of 3D printing in the foundry industry. At this expo, we will highlight our flagship product, the highly efficient Sand Casting 3D Printer with Bi-directional sand spread & binder jet , which uses the latest 3D printing technology to produce complex casting sand molds with unprecedented precision and efficiency. Our equipment not only significantly increases production efficiency, but also reduces material waste while ensuring high quality, bringing sustainable production solutions to the foundry industry. We sincerely invite friends from all over the world to visit our booth (booth 4F02,HALL4.1) and experience first-hand how cutting-edge sand 3D printing technology is bringing innovation and transformation to the foundry industry. In addition, you will have the opportunity to meet face to face with our technical experts, learn more about how our products can meet your specific needs, and explore opportunities for collaboration to advance the foundry industry. Let's look forward to a wonderful gathering in Shanghai, which is not only a technical demonstration, but also an excellent opportunity for elites inside and outside the industry to exchange cooperation and seek common development. We look forward to meeting you at the exhibition and exploring the future of the foundry industry together! Stay tuned, see you later!

On December 13, 2023, the Dubai Future Museum showcased a sand wall created through sand 3D printing. Approximately 6 meters long, this wall was designed by architect and researcher Barry Wark. It combines art with modern technology, reminiscent of ancient mural design elements. Named "Nadarra," it's considered one of the most complex sand 3D printed walls ever made. Wark believes sand 3D printing could revolutionize architecture, envisioning its use for indoor and outdoor walls and structural elements due to its load-bearing and durability potentials. Initially displayed in February 2022 as part of the "Tomorrow Today" exhibition, "Nadarra" now expanded to 3×6m, is permanently housed in the museum. Featuring intricate 3D textures on its exterior, the wall offers a unique aesthetic appeal. Wark used generative AI software to design these surfaces, simulating natural erosion. He aimed to blur the lines between natural and artificial, emphasizing the increasing ambiguity in defining these categories. The wall, a series of 3D-printed "puzzle pieces" made through binder jetting printing, highlights the potential of this form of 3D printing in desert countries like the Middle East. Wark envisions utilizing local materials for future urban design and construction, promoting eco-friendly architecture. The wall can be ground and reprinted up to eight times without compromising its structural integrity. Initially a living wall with moss in crevices to represent plant habitation on natural walls, the moss was later removed partly due to long-term maintenance in the museum setting. Removing the original plant element, Wark believes, resonates more with the wall's design, as it showcases the natural beauty of the UAE's sparse vegetation. This emphasizes ecological design approaches without forcing vegetation in unsuitable areas, highlighting harmony with the local environment. This project illustrates the extraordinary value of sand-type 3D printing, not only in industry but also in art.

3D printing, also known as additive manufacturing, has emerged as a groundbreaking technology with immense potential. In this blog post, we will explore the revolutionary applications of 3D printing, with a specific focus on the use of sand and industrial 3D printers. By harnessing the capabilities of these printers, various industries have experienced significant advancements and transformations. Applications of Sand 3D Printers: Sand 3D printing has revolutionized the construction industry, allowing for the creation of complex architectural designs and efficient production of molds and prototypes. Architects and designers can now bring their innovative concepts to life with ease. In the manufacturing sector, sand 3D printers have enabled the production of intricate metal castings, as well as the customization of tools and machinery for enhanced efficiency. The world of art and design has also been impacted, with artists and sculptors utilizing sand 3D printers to create intricate sand art and replicate historical artifacts with precision. Advancements in Industrial 3D Printers: Industrial 3D printers have brought about remarkable advancements in various industries. In the automotive industry, rapid prototyping for vehicle parts has become more efficient, enabling faster innovation and production cycles. Moreover, the customization of interior components has become a reality, providing customers with personalized experiences. The aerospace sector has also witnessed significant progress, as industrial 3D printers are capable of manufacturing lightweight components and designing complex geometries for aircraft engines. In the medical field, the creation of patient-specific prosthetics and implants has become more accessible, while the printing of organ models for surgical planning has revolutionized the healthcare industry. Impact on Environmental Sustainability: Apart from their numerous applications, 3D printers contribute to environmental sustainability. By reducing material waste in manufacturing processes, the technology minimizes the negative impact on the environment. Furthermore, the utilization of recycled materials in 3D printing promotes a circular economy and reduces dependence on virgin resources. The potential for on-site construction using sustainable materials opens up new possibilities for eco-friendly building practices. While the potential of 3D printing is vast, there are challenges that need to be addressed. Cost limitations and accessibility remain significant barriers for widespread adoption. However, advancements in materials and printing techniques are constantly being made, driving down costs and expanding accessibility. Looking ahead, there is immense potential for 3D printed homes and infrastructure, promising to revolutionize the construction industry further. In conclusion, 3D printing, particularly the utilization of sand and industrial 3D printers, has revolutionized various industries. From construction and manufacturing to art and healthcare, the applications are vast and transformative. As the technology continues to evolve and become more accessible, its impact on industries and the environment will only grow. The future holds exciting possibilities for 3D printing, and its potential is yet to be fully realized. FHZL is leading 3D printer manufacturer in China with rich experience in exporting binder jetting 3D printers to all over the world since 2017. After twenty-years' hardworking, FHZL has become an expert in R&D of binder jet 3D printing technology and has launched various sand 3D printers to meet market demands, such as PCM1200, PCM1800 and PCM2200. FHZL 3D sand casting printers are developed independently by FHZL team without patent issues. Up to now, FHZL has set up total 3 sales&service center worldwide: two in China-Foshan and Chengdu and one in Russia-Moscow. With annual production capacity of 50 sets, FHZL 3D printing machines have been successfully exported to Russia, Belarus, India, Japan, Brazil, etc and have been widely used in automotive, pump, valve, engineering machinery, mining machinery, construction machinery, military industry, vessel, aviation, aerospace, new energy, rail transit, casting mold and many other industries. Please contact us to get more information, thanks.

The construction industry is undergoing a revolution with the advent of 3D printing technology. One particular innovation that is gaining traction is sand 3D printing, which enables the creation of complex structures using sand as the primary material. This article explores the sand 3D printing process, its advantages in construction, and its industrial applications. Understanding the Sand 3D Printing Process: To comprehend the sand 3D printing process, it is essential to grasp the fundamentals of 3D printing techniques. This section provides an overview of common 3D printing methods and then delves into how sand 3D printers work. From binder jetting to selective laser sintering, each technique has its own unique approach to transforming sand into solid objects. Key Advantages of Sand 3D Printing in Construction: Sand 3D printing offers several advantages that make it an attractive option in the construction industry. This section explores the cost-effectiveness and time efficiency of using sand 3D printers compared to traditional construction methods. Additionally, it highlights the customization and design freedom that sand 3D printing provides, allowing architects and engineers to bring their creative visions to life. Furthermore, the sustainability aspect is discussed, emphasizing how sand 3D printing reduces waste and environmental impact. Industrial Applications of Sand 3D Printers: The versatility of sand 3D printers opens up various applications in the construction industry. This section examines how sand 3D printing is used in architectural design and prototyping, allowing for rapid iteration and improved visualization. It also explores the construction of complex structures that would be difficult or costly to build using traditional methods. Moreover, the article discusses the potential of sand 3D printing in infrastructure development and repairs, showcasing its ability to revolutionize the way we build and maintain roads, bridges, and other essential infrastructure. Challenges and Future Developments in Sand 3D Printing: While sand 3D printing holds immense potential, it is not without its challenges. This section addresses the limitations of available materials and the need for strict quality control to ensure structural integrity. It also discusses the scalability of sand 3D printing for large-scale projects and the integration of this technology with other construction methods and materials. Additionally, it explores ongoing research and future developments in sand 3D printing, including advancements in material science and the potential for new applications. In conclusion, sand 3D printing has the potential to revolutionize the construction industry. Its unique capabilities, such as cost-effectiveness, design freedom, and sustainability, make it a promising technology for architects, engineers, and construction professionals. As advancements continue to address challenges and push the boundaries of sand 3D printing, we can expect to see even more remarkable applications and transformative impacts on the way we build.

Enterprises are the main body of innovation. On the stage of trillions of manufacturing markets, which enterprises are leading industrial innovation? On November 29, the top 100 science and Technology Leading Enterprises of Foshan City in 2023 were officially announced. According to the work deployment of the Foshan Municipal Party Committee and the municipal government, the bureau recently carried out the selection of the top 100 science and technology leading enterprises in Foshan in 2023, and the object is the high-tech enterprises registered in Foshan and valid within the end of 2022. The top 100 list sets up three characteristic lists of innovation strength, innovation efficiency and science and technology innovation and entrepreneurship team, including the top 50 enterprises with innovation strength, the top 30 enterprises with innovation efficiency and the top 20 enterprises with science and technology innovation and entrepreneurship team, including the "science and technology strong" in various fields of Foshan enterprises, showing the strong innovation strength of Foshan enterprises. And our company is officially in the list of the top 30 enterprises in innovation efficiency, fully demonstrating the strength of FHZL. Top 30 enterprises in Innovation efficiency refers to 30 enterprises with a certain economic scale (operating income of more than 20 million yuan in the previous year), and have obvious advantages in innovation efficiency and enterprise efficiency. Strong innovation input-output and high innovation efficiency are important characteristics of the top 30 enterprises in innovation efficiency. From the perspective of innovation investment, the average R&D investment intensity of the top 30 enterprises with innovation efficiency reached 10.9%, and the proportion of R&D personnel accounted for 32.1% of employees, which was much higher than the city's high average (4.4%, 19.1%). From the perspective of innovation output, the per capita new product output value of the top 30 enterprises with innovation efficiency is 479,000 yuan, which is higher than the city's high average 81,000 yuan/person, and the average number of intellectual property rights per household is 220, which is 7.9 times the city's high average. At the same time, from the perspective of innovation efficiency, the average number of authorized invention patents per 100 million yuan of research and development funds of the top 30 enterprises with innovation efficiency is 48.1, and the number of effective invention patents and registered trademarks per 10 million revenue is 4.3, which are higher than the city's high average of 30.8 and 3.2, respectively. Another feature of the top 30 enterprises in innovation efficiency is strong profitability and good operating efficiency. Statistics show that the top 30 innovative energy efficiency enterprises in the last year's operating income exceeded 90 million yuan, the average household revenue of 370 million yuan, the average household profit rate of 9.7%, 4.5 percentage points higher than the city's high, strong profitability. The total per capita profit of the top 30 enterprises in innovation efficiency was 83,000 yuan and the per capita tax paid was 43,000 yuan, which were higher than the city's average of 22,000 yuan/person and 9,000 yuan/person respectively. From the perspective of industry, these enterprises are mainly concentrated in the three technical fields of advanced manufacturing and automation, new materials, and electronic information. Among them, there are 11 listed enterprises in the field of advanced manufacturing and automation, and the number of listed enterprises ranks first in various technical fields. In addition, the number of listed enterprises in the field of new materials and electronic information is 7, 6, respectively, and the number of listed enterprises in the field of biology and new medicine, resources and environment is 3. Aerospace, high-tech services, new energy and energy conservation sectors did not make the list. From the regional point of view, Nanhai District is the main gathering place of the top 30 enterprises in innovation efficiency, and the number of enterprises on the list is 13, far ahead of other districts. Shunde District and Sanshui District have 7 and 5 listed enterprises, ranking second and third in each district. Chancheng District, Gaoming District listed fewer enterprises, respectively, 3, 2.

The industrial manufacturing sector has been experiencing a significant transformation with the advent of 3D printers. These advanced machines have revolutionized the way products are designed and manufactured. While metal 3D printers have gained significant attention, the development and potential of sand 3D printers in industrial manufacturing cannot be overlooked. This article explores the future prospects of sand 3D printers and their potential to transform the industry. Understanding Sand 3D Printers Sand 3D printers, also known as binder jetting printers, utilize a layer-by-layer additive manufacturing process. The printer deposits thin layers of sand and selectively binds them together using a liquid binding agent. This process allows for the creation of complex and intricate designs with high precision. Sand is an ideal material for 3D printing due to its abundance, low cost, and ease of manipulation. Advantages of using sand as a printing material include its ability to withstand high temperatures, making it suitable for applications in the construction and automotive industries. Additionally, sand is environmentally friendly and recyclable, making it a sustainable choice for manufacturing processes. Applications of Sand 3D Printers The potential applications of sand 3D printers are vast and varied. In the construction and architecture industries, sand 3D printers can be used to create molds for concrete structures, enabling faster and more efficient construction processes. This technology has the potential to revolutionize the way buildings are constructed, reducing costs and increasing design possibilities. In the automotive and aerospace industries, sand 3D printers can be utilized for rapid prototyping and the production of complex parts. The ability to create intricate designs with high precision allows for the production of lightweight and durable components, improving fuel efficiency and overall performance. Furthermore, sand 3D printers have also found applications in the art and design sector. Artists and designers can use this technology to create intricate sculptures and unique pieces, pushing the boundaries of creativity and aesthetics. Challenges and Future Developments Despite the potential of sand 3D printers, there are still challenges that need to be overcome. One of the main limitations is the speed and scale of the printing process. Currently, sand 3D printers are slower compared to metal printers and have size limitations. However, ongoing research and development efforts aim to address these challenges and improve the speed and scalability of sand 3D printing technology. Advances in sand 3D printing technology are also expected in the future. Researchers are exploring new binding agents and materials that can enhance the strength and durability of printed sand objects. Additionally, improvements in printer design and software capabilities will further enhance the precision and complexity of printed designs. Comparison with Metal 3D Printers While metal 3D printers have gained significant attention in industrial manufacturing, sand 3D printers offer unique advantages. Sand 3D printers are more cost-effective and versatile compared to metal printers. They can be used for a wider range of applications and are suitable for large-scale production. Metal 3D printers, on the other hand, excel in creating high-strength and high-temperature resistant parts. Complementary roles can be seen between sand and metal 3D printers. Sand printers can be used for prototyping and creating molds, while metal printers can be utilized for the production of final parts that require specific material properties. The future of sand 3D printers in industrial manufacturing is promising. With their ability to create complex designs, cost-effectiveness, and versatility, sand 3D printers have the potential to revolutionize various industries. Ongoing advancements in technology and materials will further enhance their capabilities and overcome current limitations. As the technology continues to evolve, sand 3D printers will play a crucial role in transforming the way products are designed and manufactured.

With the rapid development of 3D printing technology, the application of industrial 3D printers has become more and more widespread. Among them, Sand 3D printer, as a commonly used industrial 3D printer, has unique advantages and application areas. However, when using Sand 3D printers, we must always pay attention to safety issues. This article will focus on the discussion around the safety precautions during the use of Sand 3D printers. How Sand 3D Printers Work: Sand 3D printers are a 3D printing technology that utilizes sand as a printing material. Its working principle can be briefly summarized as follows: first, a 3D model is created through computer-aided design software. Then, the model is fed into the printer and printed according to preset parameters. During the printing process, the print head will locate the fine grit particles in the correct position through jetting technology and use adhesives to bond them together, ultimately forming a complete object. Sand 3D printers offer higher print speeds and larger print sizes than other 3D printing technologies. Safety Risks of Sand 3D Printers: Despite the wide range of applications for Sand 3D printers, there are some potential safety risks associated with their use. First, the use of high-temperature molten metal may lead to heat source risks such as fire. Second, the printing materials may contain some hazardous substances that may pose a potential threat to human health. In addition, mechanical accidents that may occur during operation are also something to be aware of. Safety Precautions: To ensure the safety of using Sand 3D printers, we need to take a series of safety precautions. First, for heat source risks, we should wear appropriate protective equipment such as heat-resistant gloves and protective glasses. Additionally, proper temperatures and print speeds should be set to avoid excessive heat sources and too fast print speeds. It is also essential to check the equipment and perform maintenance regularly. For chemical risks, we need to choose safe printing materials and ensure that adequate ventilation is provided. In addition, we should follow proper storage and handling procedures to minimize potential chemical hazards. For mechanical risks, we should provide training and guidance to ensure operators are familiar with the correct operating procedures. It is also important to regularly inspect equipment and perform maintenance. Other Safety Recommendations: In addition to the precautions mentioned above, there are a number of other safety recommendations we can take to improve the safety of using Sand 3D printers. First, it is important to regularly inspect and maintain the equipment to detect potential malfunctions or problems and fix them promptly. Second, conduct training and education to ensure that operators have the necessary knowledge and skills. Finally, establish emergency plans and contingencies to deal with accidents and emergencies. When using Sand 3D printers, we must always keep in mind that safety comes first. By following the above safety precautions and recommendations, we can minimize potential safety risks and ensure the safety and efficiency of using Sand 3D printers. Therefore, it is important that you understand and follow these safety precautions before using your Sand 3D printer.

The manufacturing industry has witnessed a profound transformation with the advent of 3D printing technology. Among the various types of 3D printers, Sand 3D Printers have emerged as a game-changer, revolutionizing the way we manufacture products. This article delves into the capabilities, applications, advancements, challenges, and future outlook of Sand 3D Printers, highlighting their impact on the manufacturing sector. Understanding Sand 3D Printers: Sand 3D Printers, also known as binder jetting printers, utilize a layer-by-layer additive manufacturing process to create three-dimensional objects. Unlike metal or industrial 3D printers, which rely on melting and fusing materials, Sand 3D Printers use a powdered material, typically sand, combined with a binding agent to create solid structures. This unique approach enables the production of complex geometries and intricate designs. Applications of Sand 3D Printers in Manufacturing: Sand 3D Printers find applications across various industries, including automotive, aerospace, construction, and art. They excel in rapid prototyping and product development, enabling faster iterations and reducing time to market. Additionally, Sand 3D Printers are increasingly used for customized molds and tooling production, allowing for better efficiency and cost-effectiveness. Furthermore, the architectural and art sectors benefit from the ability to create intricate designs and sculptures that were previously challenging or impossible to achieve. Moreover, Sand 3D Printers are contributing to sustainable construction practices by utilizing recycled materials and reducing waste. Advancements and Innovations in Sand 3D Printing: The field of Sand 3D Printing is constantly evolving, with advancements and innovations pushing the boundaries of what is possible. Integration of robotics and automation is streamlining the printing process and increasing production capabilities. Researchers are also exploring new material options and properties, such as the development of binders that enhance strength and durability. Scaling up Sand 3D Printing for large-scale production is another area of focus, with the aim of making it a viable alternative to traditional manufacturing methods. The future possibilities of Sand 3D Printing include the potential to disrupt supply chains and enable on-demand production. Challenges and Future Outlook: While Sand 3D Printers offer numerous benefits, they also face challenges that need to be addressed for wider adoption. Cost considerations and accessibility remain barriers for small and medium-sized enterprises. Quality control and post-processing requirements are critical factors to ensure consistent and reliable output. Regulatory and environmental implications, such as material disposal and emissions, need to be carefully managed. Collaboration between industry players, researchers, and policymakers is crucial for addressing these challenges and unlocking the full potential of Sand 3D Printers. Sand 3D Printers have emerged as a transformative force in the manufacturing industry, enabling novel possibilities and redefining traditional processes. With their ability to create complex designs, customizable molds, and sustainable construction materials, Sand 3D Printers are poised to revolutionize various sectors. By addressing challenges and fostering collaboration, the future of manufacturing with Sand 3D Printers is promising, paving the way for a new era of innovation and efficiency.