The B2B platform for the best purchasing descision. Identify and compare relevant B2B manufacturers, suppliers and retailers
Filter
Locations
Result types
Type of company
Select company type
Industries
Select industry
Company status
Select company status preset
Number of employees
Min.
Max.
Founding year
Lock keywords
Exclude keywords
Optional keywords
+
Featured
Highsion Technology-Highsion
... Gallium Indium Tin eutectic, liquid metal alloy 99.99% ...
Surrey, Canada
51-100 Employees
1955
Chemicals is a manufacturer and wholesaler of chemical products for the electronics industry. Our chemical products include dusters and circuit coolers, cleaner / degreasers, flux removers, contact cleaners, protective coatings, solder, epoxies, adhesives, RTV silicones, lubricants, EMI/RFI shielding coatings, thermal management products, prototyping supplies, and more. We also distribute related non-chemical products, such as wipes, swabs, brushes, desoldering braid, and copper clad boards. Chemicals Burlington site has an ISO 9001:2015 quality management system. We are a firm believer in the ISO 9001 philosophy of producing quality products that are designed to meet the specific needs of our customers.
+
Featured
Water Soluble Solder
... Eutectic alloy (liquidus = solidus temperature) Alloy exceeds J-STD-006C and meets ASTM B 32 purity requirements Flux meets J-STD-004B Water-soluble flux Fast wetting Fast flowing Low ...
Arlington Heights, United States
1-10 Employees
2008
You'll find our complete selection of items in an easy-to-use catalog format, all from the convenience of your computer! Build or renovate your science lab for 21st century learning with furniture and services from Sargent Welch and VWR®. Illustrate all chemistry concepts from the basic elements to AP Chemistry with lab activities, demonstrations, posters, and much more. Build hands-on proficiency in biotechnology lab applications and concepts with our complete selection of curriculum text and activities, inquiry-based investigations, & professional-grade equipment. World-renowed physics apparatus, exciting activities, and classic experiments vividly illustrate every physical science principle.
+
Featured
Eutectic Alloys
... Create your own metal eutectic alloy - a combination of two metals that has a lower melting point that the melting point of either metal.Illustrate a variety of key chemistry concepts using the materials provided by these demonstrative lab activity kits. Explore common chemistry concepts ...
Foshan, China
101-250 Employees
2000
The history of JPCI Controls starts in 1972 when Jacques Jumeau, just after University, started his first company in Belgium, manufacturing heating medical equipment in his cellar。 In 1978, he moved from Belgium to France and started manufacturing bulb and capillary thermostats, pottery ovens and furnaces electronic controls. That time the French company name was JPB and changed in 1979 into JPC.In 1985, JPC bought a French company manufacturing rod thermostats since 1945, named LIEUBRAY, and later acquired the Thermostat Division of Bürkert GmbH (Germany), one of the most important European companies in rod thermostats manufacturing. During the following years, many new products have been developed in France: level switches, flow switches, disc- thermostats, bulb and capillary thermostats. These products were inventive and some of them were patented. After experiencing joint venture production development in Yugoslavia (1992) and Shenzhen (1996), Mr Jumeau decided to set up a new factory in Gao Ming in 1999: JPCI Thermostat Ltd (later changed into JPCI Controls) was born, with an original capital of 1,800,000 HKD. This factory started with a few employees (some of them still working in our company) and a 200 square meter assembly room. The company moved in 2000 to a 1000 square meters factory, then in 2004 to 4000 square meters. And in 2009 to a 10000 square meter factory on 50.000 square meter ground, allowing future development And added the 2nd new factory building in 2020, the area is 6858 square meters. In our new factory, on more than 8000 square meters production lines, we have two manufacturing divisions. Division 2: Producing Complete Assemblies and Sub Assemblies on Customer Specifications. Our R&D team develops new products upon customer specification, taking care of international safety standard (UL, CE, etc.).We produce our own stamping, bending, plastic injection, zinc alloy injection, and machining.
+
Featured
Type 5EQ, 5EW, 5EK, 5EO: Fast triggering eutectic alloys fusible links - 佛山市高明毅力温控器有限公司官网
... Type 5EQ, 5EW, 5EK, 5EO: Fast triggering eutectic alloys fusible links - 佛山市高明毅力温控器有限公司官网 ...
Surabaya, Indonesia
11-50 Employees
2004
And right now we still keep growing and will add more new branch office in main city around West Java, Borneo, and Celebes. Our core business is distributing computers hardware like Cooling , Memory , Power Supply , and several other high end products. Beside product distribution we also have retail & service. Until now we have distributed or become a master dealer for several high end products like ARX®, ID-COOLING, EKWB, Thermal Grizzly, Kingpin Cooling, Thermalright, Barrow Water Cooling and many more. Besides selling computers hardware and software, we also give solution for our customer.
+
Featured
JUAL Thermal Grizzly Conductonaut Liquid Metal 1 Gram - BerlianCom Toko Komputer Online Indonesia
... Thermal GrizzlyConductonautis a liquid metal thermal compound based on a eutectic alloy. Our special mixture of metals like tin, […] ...
Sunnyvale, United States
11-50 Employees
1979
Simplify Inventory ManagementCost ReductionsImprove Inventory Turnover Free Same Day delivery. Ranked #548 in California Ranked #52 in Health Products Ranked #39 in San Jose-Sunnyvale-Santa Clara, CA Ranked #548 in California Ranked #52 in Health Products Ranked #39 in San Jose-Sunnyvale-Santa Clara, CA.
+
Featured
Formation Of Eutectic Alloys Chemical Demonstration Kit -IS7014
... Formation Of Eutectic Alloys Chemical Demonstration Kit -IS7014 - Lab Pro ...
United Kingdom
1-10 Employees
Company registration number: 12986627 (England & Wales). V.A.T No.: GB 386 9965 11. Metallurgical microstructure testing, on-site microstructure replication & failure analysis. We specialise in microstructure examination, metallurgical failure analysis and on-site microstructure replication (including residual life replication assessment in accordance with VGB creep assessment guidelines and ECCC recommendations). - Field microstructure replication to determine residual life, grain size, creep e.t.c. Our metallurgists are PhD qualified, chartered engineers and professional members of both the Institute of Corrosion and the Institute of Materials, Minerals & Mining (IOM3) United Kingdom.
+
Featured
About | Metallography Services UK
... Eutectic melting in aluminum alloys ...
Melbourne, Australia
11-50 Employees
1998
SMENCO knows welding and has experienced people to service & support what we sell. Please provide us quick details of your request. Please provide us quick details before requesting the proudct. Please provide any details of the fault with the welding torch (if applicable). Crafted for 100% duty cycle cutting operations, this compact CNC cutting machine is the perfect choice for job shops looking to integrate their first piece of automated machinery.
+
Featured
ActivaTec® 1000 - SMENCO Australia
... Ideal for all applications in the Food and Chemical industries when used with Castolin Eutectic alloys which are high in silver content and free of cadmium. Ideal for the manufacturing of surgical instruments and kitchenware. ...
+
Featured
MG Chemicals 4880-18G Rosin Core Solder 63/37 - 0.8mm, 18g, Tube — Active Tech Electronics
... It uses the eutectic tin-to-lead alloy ratio, which is complemented with a RA-like flux core. The solder wires meet J-STD-004B, ASTM B 32, and exceeds J-STD-006C specifications. It is one of the easiest solders to work with because it offers a low-melting temperature with a sharp ...
United States
501-1000 Employees
1934
Don't see your challenge or application area? Contact Us. Indium Corporation® does not recommend, manufacture, market, or endorse any of our products for human consumption or to treat or diagnose any disease. All of Indium Corporation®'s products and solutions are designed to be commercially available unless specifically stated otherwise.
+
Featured
Die-Attach | Solder Paste | Solders | Products made by Indium Corporation
... Which Off-Eutectic AuSn Alloy Do I Use? ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Eutectic Alloy
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 9 |
| Amount of suitable service providers | 6 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1934 |
| Youngest suiting company | 2018 |
A eutectic alloy is a homogeneous mixture of two or more substances that solidify simultaneously at a single temperature, which is lower than the melting points of the individual components. This unique property occurs at a specific composition, known as the eutectic composition, and results in a eutectic point represented on phase diagrams. The eutectic system is of paramount importance in materials science and metallurgy because it enables the creation of materials that possess distinct characteristics unattainable by the individual elements alone. For instance, eutectic alloys are pivotal in soldering and brazing applications, where they provide a low melting point alongside excellent fluidity and wetting properties. This is crucial for creating strong, reliable joints in electronic circuitry and piping systems. Furthermore, the uniform structure of these alloys often translates into superior mechanical properties, such as increased toughness and wear resistance, making them suitable for various industrial applications, including in the aerospace and automotive sectors. The ability to tailor the physical properties of eutectic alloys by manipulating their composition and microstructure has led to innovations in material design, contributing significantly to advancements in technology and manufacturing processes.
1. Low Melting Point
Eutectic alloys are known for their low melting points compared to their component metals. This characteristic makes them ideal for applications requiring a precise melting point, such as in soldering and brazing. The lower energy requirement for melting also leads to energy savings.
2. Uniform Structure
When a eutectic alloy solidifies, it does so uniformly, creating a consistent microstructure. This uniformity is crucial in applications where the material's properties need to be the same throughout, ensuring reliability and predictability in its performance.
3. Thermal Conductivity
These alloys often exhibit excellent thermal conductivity, making them suitable for heat transfer applications. Their ability to efficiently conduct heat is beneficial in electronics cooling, where managing heat is critical to device performance and longevity.
4. Minimal Dross Formation
During the melting process, eutectic alloys typically produce less dross (oxidation) than their non-eutectic counterparts. This quality results in cleaner processing and less material waste, contributing to more cost-effective production and maintenance.
While evaluating the different suppliers make sure to check the following criteria:
1. Purity Levels
Ensure the eutectic alloy composition meets industry standards for purity, as this directly influences its performance in applications.
2. Consistency in Quality
Evaluate the supplier's ability to deliver consistent quality across batches, reducing variability in your processes.
3. Customization Capabilities
Determine if the supplier can provide customized alloy compositions tailored to your specific needs and applications.
4. Compliance with Standards
Check for adherence to international standards and certifications, ensuring the alloy's reliability and safety in its intended use.
5. Technical Support
Assess the level of technical support and consultation the supplier offers, aiding in the selection and application of their products.
6. Supply Chain Reliability
Consider the supplier's logistical capabilities and reliability in maintaining a steady supply chain, avoiding disruptions in your operations.
7. Cost-Effectiveness
Compare pricing among suppliers while considering the total value offered, including quality, service, and support, to ensure cost-effectiveness.
Eutectic alloys play a pivotal role in the electronics industry, serving as a foundational material for soldering. This application takes advantage of the alloy's low melting point, allowing for the seamless joining of electronic components without damaging sensitive circuits. The precise control over temperature ensures reliable electrical connections, critical for manufacturing everything from household gadgets to advanced computing systems. In the realm of thermal management, eutectic alloys find their use in heat sinks and thermal interface materials. Their excellent thermal conductivity and phase change properties facilitate efficient heat dissipation. This is especially beneficial in high-performance computing and telecommunications equipment, where managing operational temperatures is vital for maintaining system reliability and performance. Additionally, eutectic alloys are utilized in the aerospace and automotive industries for lightweight, high-strength bonding applications. They enable the fabrication of components that can withstand extreme temperatures and mechanical stresses, contributing to the durability and longevity of vehicles and spacecraft. This application underscores the material's versatility and its contribution to advancements in transportation and exploration technologies. Each use case of eutectic alloys highlights their indispensable role across various industries, showcasing their contribution to technological progress and innovation.
Eutectic alloys, known for their unique melting characteristics, are currently positioned at various stages on the Technology Readiness Level (TRL) scale, primarily between TRL 6 to TRL 9, depending on their application and development stage. This variance is attributed to the technical advances and extensive research that have led to the successful demonstration of these alloys in operational environments. For instance, eutectic alloys find extensive applications in electronics for soldering, where their precise melting point ensures reliability and consistency in manufacturing processes. The higher TRLs, particularly TRL 9, are occupied by eutectic alloys used in thermal management systems within the aerospace industry, showcasing their full operational capability. This broad spectrum of readiness levels reflects the extensive validation and testing eutectic alloys have undergone, from laboratory settings (TRL 6, where models and prototypes are tested in relevant environments) to real-life applications (TRL 9). Technical reasons for this spread include the stability of their microstructure at operational temperatures, their reliability over repeated thermal cycling, and the compatibility of their thermal and mechanical properties with various substrates, which collectively underscore the versatility and efficacy of eutectic alloys in meeting the demands of modern technology applications.
In the Short-Term, advancements in eutectic alloys focus on refining their composition for enhanced thermal conductivity and reduced melting points. Researchers are leveraging nanotechnology to manipulate alloy structures at the molecular level, aiming to create more efficient heat dissipation materials for electronics and renewable energy applications. This phase is characterized by the development of high-performance, low-cost alloys that are easier to produce on an industrial scale, meeting the immediate demand for improved materials in manufacturing and technology sectors. Moving into the Mid-Term, the emphasis shifts towards environmental sustainability and recycling processes. Scientists are innovating ways to recycle eutectic alloys without compromising their quality or performance. This period will likely see the introduction of biodegradable eutectic alloys, reducing the environmental impact of electronic waste. Additionally, there's a push for alloys that can operate under extreme conditions, expanding their use in aerospace and deep-sea exploration, where they can withstand high pressures and temperatures while maintaining their integrity. In the Long-Term, the frontier for eutectic alloys includes the integration with smart technology. The development of self-healing alloys that can automatically repair damage or wear at the molecular level is anticipated. Such materials could revolutionize the durability of devices and components, significantly extending their lifespan. Moreover, the exploration of alloys with programmable properties—able to change their characteristics based on external stimuli—promises to create adaptive materials for futuristic applications in robotics, medicine, and beyond, paving the way for innovations that currently seem beyond reach.
