Pakistan Institute of Additive Manufacturing

[Audio] We are pleased to have you here for our presentation on the Pakistan Institute of Additive Manufacturing. In this presentation, we will delve into the newest technology and developments in this quickly expanding field. Let's jump right in and uncover what sets the Pakistan Institute of Additive Manufacturing apart as a leader in this industry..

[Audio] This presentation focuses on Team PIAM3D and their expertise in 3D printing, 3D scanning, and CAD modeling at the Pakistan Institute of Additive Manufacturing (PIAM). The team consists of highly skilled engineers and scientists with a proven track record of working with clients in various industries such as aerospace, nuclear power plants, and the automotive sector. PIAM offers cutting-edge additive manufacturing, 3D printing, 3D scanning, and CAD modeling services. Our goal is to be a center of excellence in Industry 4.0 technology, constantly pushing boundaries and staying at the forefront of emerging technologies. Our vision is to become an internationally recognized facility for additive manufacturing and reverse engineering for both industry and academia. We are proud to be a part of the Industry 4.0 movement and are fully committed to supporting the growth and development of the additive manufacturing industry in Pakistan. Thank you for attending this presentation on PIAM, stay tuned for more updates on our institute and the exciting developments in additive manufacturing..

[Audio] We will now discuss the various services offered by the Pakistan Institute of Additive Manufacturing. One important service is 3D scanning to CAD modeling, which involves using advanced technology to create accurate digital models of physical objects for various purposes. Quality control and inspection is also a crucial aspect of our services, as we strive for the highest level of quality in all our work and use the latest tools and techniques to achieve this. Another service is reverse engineering, where we create CAD models from existing parts or products, making it useful for production and future needs. We also offer part-to-CAD inspection to ensure accuracy between physical parts and their digital models for production and compliance purposes. In response to the growing demand for digital inventory and 3D printing, we offer services for creating digital inventories and conducting research and development for innovative design and engineering solutions. Our unique service of mass customization uses 3D printing to create personalized products for clients, allowing companies to stand out in the market. And lastly, we provide consultations in 3D printing to assist and guide clients in finding the best solutions for their needs. Thank you for considering our services and we look forward to the opportunity to work with you in your 3D printing journey..

[Audio] This slide will focus on the technology specifications for 3D printing in various materials at the Pakistan Institute of Additive Manufacturing. For metal 3D printing, we offer a part size of 300 x 300 x 370mm and for larger orders, a size of 410 x 410 x 400mm. The materials used for metal printing include SS316L, SS420, SS17-4PH, Titanium Alloy, Aluminum alloy, and Super Alloy. Our plastic 3D printing offers a part size of 610 x 508 x 508mm and materials such as PEEK, ULTEM, Polycarbonate, and PC-FR. We also have a part size of 380 x 380 x 250mm for photopolymers. For ceramic 3D printing, our part size is 254 x 381 x 203mm and our ceramic material is CaSO4.0.5H2O. We provide composite 3D printing with a part size of 320 x 132 x 154mm and materials including Nylon plus carbon fiber, Kevlar fiber, and glass fiber. Our metal finishing services include dry electropolishing with a part size of 500 Ø x 250mm and a surface roughness of approximately 1 micron, using SS, Titanium, Super and Aluminum Alloys. We also offer shotpeening with a working cabin size of 900mm x 600mm x 700mm and use Zirconia and Steel as our shotpeening media. Thank you for following along with slide number 4 and stay tuned for the rest of our presentation on the Pakistan Institute of Additive Manufacturing..

[Audio] Slide number five discusses the technology specifications of additive manufacturing. It is crucial to have accurate and advanced 3D scanning equipment in today's fast-paced world. At Pakistan Institute of Additive Manufacturing, we offer a variety of options to meet your needs. These include the 3D scanning handheld laser scanner, with 30-micron accuracy and 50-micron resolution for smaller parts. Our tracking laser scanner boasts 25-micron accuracy and 20-micron resolution for larger parts up to 5 meters in size. For those in need of color information, our structured light scanner provides 50-micron accuracy and 100-micron resolution for parts starting at 5 millimeters. Lastly, our micro CT scanner offers an impressive resolution of 500 nanometers and can handle materials such as aluminum, steel, and plastics up to 500 millimeters in size. At our institute, we recognize the importance of precision and efficiency in additive manufacturing. Our top-of-the-line technology allows us to deliver exceptional results for all your scanning needs. Thank you for joining us for slide number five, and we look forward to sharing more insights with you in the rest of the presentation..

[Audio] Slide number 6 will cover key technologies offered by the Pakistan Institute of Additive Manufacturing. These include the Mark Two Laser 3D Scanner, Light 3D Scanner, Metal 3D Printers, Industrial Plastic 3D Printers, Dry Electropolishing, Micro CT Scanner, and Composite 3D Printers. The Mark Two Laser 3D Scanner is a highly accurate scanning tool that uses laser technology to create detailed 3D images of objects. It is capable of producing precise models of various materials and surfaces. The Light 3D Scanner uses structured light technology to generate high-resolution 3D images of smaller objects with intricate details. Moving on, the Metal 3D Printers are ideal for producing complex metal parts with precision, using advanced methods. Our Industrial Plastic 3D Printers are designed for creating large-scale plastic parts for industrial use, catering to a wide range of applications. The Dry Electropolishing method is an efficient way to finish metal parts, enhancing their surface quality and resistance to corrosion. The Micro CT Scanner is a cutting-edge technology that allows for non-destructive testing and 3D imaging of small objects with great accuracy. It is commonly used in the medical field for various diagnostic and research purposes. Lastly, the Composite 3D Printer uses a combination of materials to produce lightweight and durable composite objects with complex shapes and structures. That sums up our discussion of the advanced technologies available at the Pakistan Institute of Additive Manufacturing. Stay tuned for more exciting information on the remaining slides..

[Audio] This is slide number 7 out of 14. We will now discuss the various technologies and specifications offered by the Pakistan Institute of Additive Manufacturing. On the table, you can see the different technology specifications for plastic 3D printing. The maximum part size for this technology is 223 x 223 x 305mm and we are able to print with a variety of plastics such as PC, ABS, Nylon, TPU, and Polypropylene. Our institute uses an 8nm IR 3D scanner for surface profiling, ensuring high-quality and detailed results. This scanner has an accuracy of 100 microns for precise measurements of 3D objects. For the best mobile surface finish, we use the Mahr Federal M400 with laser technology. This ensures optimal smoothness and finish for 3D prints. Our plastic 3D printer and surface profiler are also equipped with an IR 3D scanner, providing an accuracy of 100 microns. With these advanced technologies and equipment, we are confident in our ability to provide top-notch services and superior quality products..

[Audio] Slide number 8 of our presentation on the Pakistan Institute of Additive Manufacturing provides a closer look at the benefits of additive manufacturing technology in various industries. The table on this slide presents data showcasing the potential of this technology in aerospace, automotive, and healthcare sectors. In aerospace, additive manufacturing is suitable for producing complex and lightweight parts, including turbines, engine parts, heat exchangers, and wind tunnel models. Our institute offers a range of services, such as digital inventory, inspection, and high-precision surface finishing. Similarly, in the automotive industry, we can assist with prototyping, low volume production, and 3D scanning for the production of gears, spare parts, and exhaust manifolds. This technology also allows for mass customization of production tools and molds. The healthcare sector also greatly benefits from additive manufacturing, with our institute able to produce medical instruments, implants, and prosthetics with high precision. From knee and hip replacements to dental implants and crowns, our services include quality control and restoration. The Pakistan Institute of Additive Manufacturing serves as a valuable resource in the fields of aerospace, automotive, and healthcare, offering a wide range of services and expertise. With the use of this revolutionary technology, we can work together to achieve prototyping, low volume production, 3D scanning, and quality control. Thank you for your time, and we look forward to partnering with you in the future..

[Audio] This slide presents data on the various applications of additive manufacturing in different industries, including industrial engineering. Additive manufacturing has greatly improved the production of molds, tooling, and complex parts for chemical plants. It has also allowed for the production of dies, die holders, spare parts, and conformal cooling die casting tools in this field. The power industry has also benefited from additive manufacturing, specifically in the manufacturing of gas turbine components and the use of digital inventory, inspection, quality control, metrology, and restoration. In the field of NDT models, additive manufacturing has enabled the creation of models for concept, communication, sales and marketing, simulation, and assemblies visualization. These models are commonly used in various industries and have also seen the incorporation of digital inventory, inspection, quality control, metrology, and restoration. In the miscellaneous industry, additive manufacturing has had a significant impact with the production of high strength and lightweight tooling, lifting tools, jigs and fixtures, and shop floor components. It has also allowed for the creation of spares, chemically resistant parts, living hinges, connectors, electronic housings, and casting patterns. This concludes the overview of the various applications of additive manufacturing in different industries. Please stay tuned for the remaining slides in our presentation..

[Audio] Slide 10: The specific applications of Additive Manufacturing at Pakistan Institute of Additive Manufacturing include IMPLANTS, Lifting Tool Casting Patterns, Exhaust manifolds, Die Casting Tools, and Sand Dispensers. IMPLANTS are used in the medical field for joint replacement and bone reconstruction, while Lifting Tool Casting Patterns are used in the foundry industry for creating complex shapes and structures. Additive Manufacturing allows for precision, customization, and cost-effectiveness. Exhaust manifolds for vehicles are produced using 3D printing for durability, lightweight, and high temperature and pressure resistance. Die Casting Tools and Sand Dispensers are used in the manufacturing industry for creating metal and sand molds, and Additive Manufacturing allows for intricate design features and improved efficiency. The Pakistan Institute of Additive Manufacturing continues to explore new possibilities and advancements in various industries..

[Audio] The next slide, number 11 out of 14, will cover power generation marketing models. In today's rapidly advancing technology and competitive market, it is crucial to have effective and efficient marketing models in place for successful power generation. One example of such a model is the turbo pump stator, which offers improved performance and reduced maintenance costs, making it a popular choice among power generation companies. Additive manufacturing is also utilized in the production of customized prostheses in the power generation industry. With 3D printing technology, prosthetics can be specifically tailored for each individual, resulting in a better fit and increased comfort. Additionally, additive manufacturing is being used in the production of flame tubes. These components play a vital role in turbine engines and, with the use of additive manufacturing, they can be made with precision and durability. As we have seen, additive manufacturing has greatly impacted the power generation industry, providing cost-effective and efficient solutions for various applications. The remaining slides will continue to explore the capabilities of additive manufacturing at the Pakistan Institute of Additive Manufacturing. Thank you for watching..

[Audio] This presentation will cover the use of 3D scanning in the Pakistan Institute of Additive Manufacturing. Specifically, we will discuss its applications for the Air Radiator component in the process of 3D scanning reconstruction of a vacuum pump cooling fan. This is a crucial step in the manufacturing process as it allows for precise measurements to ensure an exact fit during the 3D printing process. Additionally, we will talk about the use of 3D scanning for the gears of the fuel pump of a turbofan engine, which plays a critical role in the engine's performance and efficiency. By using 3D scanning, we can obtain precise measurements and create accurate models of these gears. We will also touch upon the application of 3D scanning in CAD modeling, specifically for the Penetrometer. This innovative technology has significantly improved the efficiency and precision of the CAD modeling process, resulting in more reliable designs for manufacturing. In conclusion, 3D scanning has played a crucial role in revolutionizing the manufacturing process at the Pakistan Institute of Additive Manufacturing, leading to more efficient and accurate production. We hope you have gained valuable insights from this presentation..

[Audio] Slide number 13 of our presentation on the Pakistan Institute of Additive Manufacturing highlights the local and international partnerships that have been crucial in advancing our mission. Our collaborations with local organizations such as Local Aeroengine Craft, KSB Pumps, Millat Tractors, and R&D Engineering have allowed us to develop innovative solutions and drive the growth of additive manufacturing in the country. We are also proud to have partnerships with ESMICO, Satuma UAVs, Integrated Dynamics, Agha Khan University, and International PARADIGM3D from UAE, which have not only enabled us to exchange knowledge and expertise, but also create a global network of additive manufacturing professionals. Additionally, our collaborations with Turkish Aerospace Ind in Turkey, Izmir Institute of Technology, Institute of Metal Research Tsinghua University in China, and AMC Turkey have opened up opportunities for joint research and development. We are excited to announce our new collaboration with KFU Saudi Arabia, which will play a crucial role in promoting additive manufacturing in the region and fostering collaboration between our two countries. Our reputable and diverse partnerships have greatly contributed to our growth and success, and we look forward to building strong and fruitful relationships with more institutions in the future..

[Audio] Congratulations on reaching the end of the presentation! Before wrapping up, I would like to go over the contact information for the Pakistan Institute of Additive Manufacturing. If you have any further questions or would like to get in touch with us, you can contact us by phone at 051-9006230-35, or via fax at 051-9006298. You can also reach us through email at [email protected]. We appreciate you taking the time to listen to our presentation and hope you have gained valuable insights and knowledge about additive manufacturing and our work at the Pakistan Institute of Additive Manufacturing. We look forward to hearing from you and potentially working together in the future. Thank you again for your interest and attention..