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Chennai, India
11-50 Employees
2016
We are a sintered parts manufacturing company located conveniently in Chennai. We are an IATF-approved vendor for all your sintering needs. We manufacture ferrous and non-ferrous sintered parts in large and small quantities per our customer requirements. We hold ourselves up to the highest standards, and have been in the manufacturing industry since 2016. We supply a variety of innovative products, created with the greatest degree of quality and passion. As a leading manufacturer of quality products, Sintering Solutions Pvt Ltd is coming up as a major player in the industry. Select our Product and be rest assured that you’ve made the right choice for your business. Together with top engineers and technicians in the industry, we strive to produce quality Product that meet the industry’s rigorous standards.
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Home | SINTERING SOLUTIONS PVT LTD
... Home | SINTERING SOLUTIONS PVT ...
Poland
1-10 Employees
2019
Biocompatible, Skin contact, fire-retardant, glass filled versions available. Heat Deflection Temperature:standard 176°[email protected] and up-to 189°C for CF version. Choose your material, technology, color, and surface finish. Pay with a credit card, bank transfer, proforma, or request delayed payment terms. With SLS you can print as big as 300x300x560mm.
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Selective Laser Sintering
... Selective laser sintering is an additive manufacturing technique that uses a laser as the power and heat source to sinter powdered material, aiming the laser automatically at points in space defined by a 3D model, binding the material together to create a solid structure. ...
Modlniczka, Poland
11-50 Employees
2017
Jesteśmy w stanie zrealizować nawet najbardziej nietypowe pomysły. W tym etapie przeprowadzana zostaje analiza projektu, w której zwracamy szczególna uwagę na zasadność rozwiązania, rozwiązania konstrukcyjne, możliwość optymalizacji konstrukcyjnej części, zastosowane materiały, środowisko pracy czy specyficzne wymagania do produktu. Wynikiem tego etapu jest szczegółowy raport na bazie którego mogą zostać realizowane kolejne kroki. Po wnikliwej analizie i uzgodnionych zmianach konstrukcyjno-technologicznych pod technologie przyrostowe, wytwarzane zostają prototypy do oceny słuszności z pierwotnym założeniem. Ten etap pozwala zweryfikować założenia oraz ocenić w sposób laboratoryjny i rzeczywisty produktu, które poddane zostały procesowi.
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3d printing SLS: selective laser sintering
... 3d printing SLS: selective laser sintering | Fibometry: additive manufatuting ...
Wertheim, Germany
11-50 Employees
PINK GmbH Thermosysteme – founded by Friedrich Pink – is located in Wertheim / Main and has more than 180 employees now. PINK operates internationally with a network of sectoral agencies in all major markets and is a worldwide supplier of customized plants and systems. The PINK Group comprises not only PINK GmbH Thermosysteme, but also PINK GmbH Vakuumtechnik. PINK GmbH Thermosysteme is located in Wertheim/Main and produces at the site in Bestenheid systems for vacuum-supported soldering, low-pressure plasma systems, sintering systems as well as systems for drying and processing technology. PINK is a worldwide supplier for innovative and reliable customized systems and delivers products to well-known technology companies of e.g. The product range includes systems for vacuum-supported soldering, sintering systems, low-pressure plasma systems for surface treatment as well as systems for drying and processing technology. In the past years, the family business PINK has grown steadily and successfully due to continuous product improvements and consequent customer orientation. Professional support by our qualified and experienced specialists is provided to all our customers.
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Sintering systems
... Sintering systems with PINK's new ...
Belfast, United Kingdom
11-50 Employees
1991
We are a customer focused company and strive to meet all quoted lead times, deliver superior service and part quality and maintain a competitive edge through our innovative service offering and our highly skilled workforce. We are always striving to be at the forefront of the very latest additive manufacturing technologies and are always seeking new opportunities to get involved in R&D projects. We are a full-service bureau offering a wide range of services in-house, meaning that we have the capabilities to be your service partner for your entire project – from small first off prototypes through to low-volume production. We are constantly investing in new materials and technologies because our aim is to be able to fulfil all of our customer’s project needs – whatever the challenges. We are the longest established RP bureau in the UK and Ireland, and we have an experienced team of both engineers and modelmakers. When LPE was first founded our goal was simply to ensure we offered our customers fast, reliable plastic prototype parts. At LPE, we value our customer relationships and are dedicated to offering fast, efficient prototyping and rapid manufacturing solutions across a wide range of industry sectors. Meet the people that are dedicated to ensuring that you receive an unrivalled customer experience when you work with LPE.
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Metal Sintering Now Available!
... LPE is pleased to announce the recent installation of the very latest metal sintering equipment. The ‘Concept Laser Mlab’ laser cusing system offers ...
Warsaw, Poland
11-50 Employees
2012
More than 15 years of experience in sintering technologies.
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GeniCore U-FAST (SPS) GC Device - our industrial spark plasma sintering machine
... Looking for an advanced plasma sintering machine? U-FAST product provides the reliability and performance you need for sintering projects! ...
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Next Generation Sintering Technologies
... Next Generation Sintering ...
New Sharon, United States
11-50 Employees
2011
RP America began life as an organization solely dedicated to servicing additive manufacturing equipment for businesses. Founded on our Midwestern values, our experience in additive manufacturing technology led us to realize that we could provide more value to our clients by guiding them toward the best equipment, software, and accessories to meet their needs. We understand how to help companies derive the greatest benefit from their additive manufacturing investment. With valuable insight into the right tools to accomplish a variety of manufacturing objectives, we give customers the flexibility they need to create innovative solutions efficiently and with minimal waste. Our mission is to be the most respected service-first provider in the additive manufacturing industry.
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Industrial Selective Laser Sintering (SLS) 3D Printers
... Industrial Selective Laser Sintering (SLS) 3D ...
China
11-50 Employees
1997
Jinggong Measuring Tools Producing Co., Ltd is specializing in manufacturing and exporting all kinds of cast iron products,especially for cast iron floor plates, cast iron surface plates, cast iron clamping plates, cast iron angle plates, cast iron box table and other machine tool castings. The products have the features of reasonable design, stable structure, superior quality and competitive price. We completely control each production steps from mould making, cast, annealing treatments, machining, testing and packing in our own factory, could meet different customers' production requirement and delivery time.
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Sintering Pallets
... Sintering Pallets_Jinggong Measuring Tools Producing Co., ...
Hyderabad, India
1-10 Employees
Shapefy enables individuals and businesses to bring their ideas from inception to post production and fulfillment with its end to end solution offerings in 3D printing and manufacturing. Founded in 2017, Shapefy is located in Hyderabad with a network of innovative partners around the world. Shapefy has a network of over a thousand businesses and has printed over 1 Lakh products. Unlike desktop printers or makerspaces, the Shapefy platform offers services from its own studios and global supply chain network. Printing in over 50 materials and finishes, Shapefy provides 3D printing manufacturing solutions to individuals and businesses of all sizes across a multitude of industries. Businesses in medical, robotics, drones, education, consumer products, to name a few, have all benefited from direct access to the most innovative technology and industrial-quality materials.
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Featured
Selective Laser Sintering (SLS)
... Selective Laser Sintering (SLS) is a 3D printing technology that uses high-powered lasers to sinter powdered material, binding it together to create a solid structure. ...
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Some interesting numbers and facts about the results you have just received for Sintering
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 352 |
| Amount of suitable service providers | 296 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1991 |
| Youngest suiting company | 2019 |
Sintering is a heat treatment process that compacts and forms a solid mass of material by heat or pressure without melting it to the point of liquefaction. This technique plays a pivotal role in the manufacturing of various components from metal, ceramics, plastics, or other powder materials. By applying heat below the material's melting point, particles within a powder aggregate bond together at their contact points through diffusion and other mechanisms, resulting in a denser product with increased strength, structural integrity, and reduced porosity. In the field of materials science and engineering, sintering is crucial for producing parts with specific geometries and properties that are difficult or impossible to achieve through other methods. It enables the production of complex shapes with a high degree of precision while minimizing material waste, making it a preferred process in industries such as aerospace, automotive, electronics, and biomedical. Moreover, sintering contributes significantly to advancements in technology by facilitating the development of new materials and composites with enhanced functionalities, tailored for specific applications. The process's ability to modify microstructural characteristics also allows for the improvement of mechanical, electrical, thermal, and optical properties of materials, underscoring its importance in research and industrial applications alike.
1. Enhanced Material Properties
Sintering allows for the production of materials with superior mechanical properties, such as increased density and strength. This process enables precise control over the microstructure of materials, significantly enhancing their performance in various applications.
2. Cost Efficiency
The sintering process is highly cost-effective compared to other manufacturing methods. It reduces the need for extensive machining and material waste, leading to significant savings in both material costs and production time.
3. Design Flexibility
Sintering offers exceptional design flexibility, allowing for the creation of complex shapes that would be difficult or impossible to achieve with traditional manufacturing processes. This opens up new possibilities for innovation in design and functionality.
4. Energy Efficiency
Sintering is an energy-efficient manufacturing process, particularly when compared to processes that require melting and casting of materials. The ability to process materials at temperatures below their melting points leads to reduced energy consumption and lower production costs.
1. Technology and Equipment
Ensure the supplier has the latest sintering technology and well-maintained equipment capable of meeting your specific product requirements.
2. Material Expertise
Verify that the supplier has extensive knowledge and experience with the types of materials you plan to use, ensuring they can handle your project's unique needs.
3. Quality Control Processes
Assess the supplier's quality control measures, ensuring they have stringent procedures in place to maintain high-quality outputs.
4. Production Capacity
Determine if the supplier has the necessary production capacity to meet your volume requirements within your desired timelines.
5. Cost-Effectiveness
Consider the overall cost-effectiveness of partnering with the supplier, including pricing, materials, and any additional services offered.
6. Reputation and Reliability
Research the supplier's reputation within the industry and their track record for reliability and timely delivery of orders.
Sintering, a process of compacting and forming a solid mass of material by heat and pressure without melting it to the point of liquefaction, plays a pivotal role in the manufacturing sector. In the aerospace industry, sintering is crucial for producing components that must withstand extreme conditions, such as high temperatures and pressures, while maintaining lightweight and high-strength properties. These components often include turbine parts and exhaust systems, where the integrity of the material is paramount. In the automotive industry, sintering finds its application in the production of complex parts like gears, bearings, and filters. This method allows for the creation of durable, precise components that contribute to the overall efficiency and longevity of vehicles. The ability to use various metals and alloys in the sintering process enables manufacturers to tailor materials for specific performance requirements. Electronics manufacturing also benefits significantly from sintering, especially in the creation of components for circuit boards and connectors. The process facilitates the production of small, intricate parts that require a high degree of precision and reliability. By using sintering, manufacturers can achieve superior electrical conductivity and thermal properties, crucial for the functionality of electronic devices. In the medical industry, sintering is instrumental in fabricating biomedical implants and devices. The process allows for the creation of porous structures that can facilitate bone ingrowth, making it ideal for orthopedic implants. Sintering's ability to work with biocompatible materials ensures that these medical devices are safe for human use, providing enhanced durability and compatibility with body tissues.
Sintering, a process integral to material science and engineering, especially in the fabrication of ceramics and metals, occupies a high Technology Readiness Level (TRL) of 9. This classification is due to its extensive validation in real-world settings and its integration into various industrial applications. Technically, sintering involves the consolidation of powdered materials at temperatures below their melting points, leading to the reduction of porosity and enhancement of properties such as strength, electrical conductivity, and thermal conductivity. The process has reached this advanced TRL through years of refinement and innovation, including the development of advanced sintering techniques like spark plasma sintering and laser sintering, which offer enhanced control over microstructural properties. These advancements contribute to its broad applicability in producing complex geometries and tailored material properties in sectors such as aerospace, automotive, and biomedical engineering. The maturity of sintering technology is further evidenced by its standardized procedures, extensive literature on its principles and applications, and the availability of sophisticated equipment designed for high precision and efficiency in sintering operations. This high TRL reflects sintering's proven reliability, efficiency, and adaptability to meet specific industry requirements.
In the Short-Term, advancements in sintering technology are anticipated to focus on enhancing energy efficiency and reducing production times. Innovations in electric and microwave sintering processes are set to make significant strides, offering more uniform heating and faster sintering cycles. This phase is also expected to see the development of advanced monitoring systems, employing AI and machine learning to optimize the sintering process in real-time, ensuring higher quality outcomes with minimal resource wastage. The Mid-Term phase is likely to witness the integration of additive manufacturing techniques with traditional sintering processes, enabling the creation of complex, high-density parts with unprecedented precision. Research in the development of new sintering materials, such as ultra-high temperature ceramics and metal alloys, is poised to expand the application areas of sintering into aerospace, defense, and energy sectors. This period will also explore the environmental aspects of sintering, focusing on reducing emissions and recycling sintered materials. Looking into the Long-Term, the horizon of sintering technology is set to be reshaped by the advent of nanotechnology and 4D printing. These innovations promise to revolutionize sintering by enabling the production of materials with programmable properties and self-healing capabilities. Additionally, the exploration of sintering in extraterrestrial environments, for instance, using lunar or Martian dust, opens up exciting possibilities for constructing habitats in space, showcasing the transformative potential of sintering technology in the future.
