Ultra high purity and high purity forms also include metal powder, submicron powder and nanoscale, targets for thin film deposition, and pellets for . Thermal pastes have much lower thermal resistance than air but their thermal conductivity is much less than most metals. a thin sheet of pure indium foil to be used as a thermal interface material between objects conducting heat. The published bulk thermal conductivity of 6061-T6 aluminum, OFHC copper, 304 stainless steel were used (refs. Note that Fourier's law applies for all matter, regardless of its state . The thermal conductance of pressed contacts which have been augmented with indium foil or Apiezon-N grease has been measured over the temperature range 1.6-6.0 K, with applied forces from 22 to 670N. Indium or Apiezon-N TM augmented contacts, correcting for the bulk conductivity of aluminum, brass, and copper affected the results on the order of 10%. The high therma l conductivity of metals and alloys determines how they can be used in thermal solutions. Nano Lett. Thermal Conductivity: 81.8 W/M/C @ 25 C . Application: Heat think and thermal interface material for wafers. silicon growth substrate onto metalized surfaces. Packing: As required CAS No: 7440-74-6 Indium Wire & Foil: Being both a ductile and malleable metal, indium can be pulled into wire or rolled into thin foils. 88.80 Add to Cart Indium foil (99.99%) - 100micron thick 100x100mm 100x100mm sheet. . View more details on indium's Safety Data Sheet. K; Purity: 99.995% 4N5 (trace metal basis) Net weight: ~9.2 g; Applications Indium foil is widely used in the electronics industry, heat dissipation of conductors and heat dissipation of semiconductor. Various interstitial materials investigated include indium foil, silver foil, and liquid eutectic, as expected, thermal contact resistance decreases as interface pressure increases, except in case of the eutectic, in which it was . K). Indium foil is considered as a bonding layer for low-temperature (<150C) applications while a tin-plated aluminum/nickel foil is used for high temperature applications (<1000C). and sealing applications. The boundary conditions are a heat load absorption of the foil of 100 W. The thickness of the glue between the indium foil and copper pad is 20 m and the thermal conductivity is 3.31 W m 1 K 1. Surface finish: as cold rolling < 100 A. By efficiently pulling heat away from components that produce heat, such as CPUs, this foil lets you use smaller forced cooling systems to extend battery life. Unfortunately recycled indium foil can have impurities that impair its thermal conductivity so we only ever supply high-purity indium foil (99.99%). atively low thermal conductivity. Indium imparts it's unique properties in many indium solder alloy compositions. Furthermore, indium is used in personal computers as thermal interface material (TIM), which is fitted between microprocessor and heat sink due to its excellent thermal conductivity [5]. Low Temperature : Indium Melts at 156.6oC. The heat transfer characteristics of a solid material are measured by a property called the thermal conductivity, k (or ), measured in W/m.K. The thermal resistance versus indium thickness curve at 70 C and 50 psi was constructed to calculate the thermal conductivity. You must have JavaScript enabled in your browser to utilize the functionality of this website. 2010; 10:1120. doi: 10.1021/nl902720v. The hot-disk sensor was made of molybdenum foil (thickness, 20mm; radius of sensor region, 3.05mm) cut in a In 1934, Indium Corporation of America was the first to begin commercial development of indium, and is still the leading refiner, fabricator, and marketer of this versatile silver-white metal. Metal thermal interface materials are the ideal solution to fill this need. Fig. Most foils are produced from cast ingots for use in coating and thin film Chemical Vapor Deposition (CVD) and Physical Vapor Deposition (PVD) processes including Thermal and Electron Beam (E-Beam) Evaporation, Low Temperature Organic Evaporation, Atomic Layer Deposition (ALD), Organometallic and Chemical Vapor Deposition (MOCVD) for specific app. Our patented Heat-Spring technology further reduces the thermal resistance and enhances cooling. You must have JavaScript enabled in your browser to utilize the functionality of this website. . It has the highest level thermal conductivity after aluminum, and has the special property of being able to wet glass and ceramics, allowing excellent adhesion between metals and nonmetals. This item: 99.99% Premium Indium Sheet Foil (50mm x50mm x0.1mm) for CPU Heat Sink, Bonding $10.95 Tin Nugget (1 Pound | 99.9+% Pure) Raw Tin Metal by MS MetalShipper $39.99 Bismuth Ingot Chunk 99.99% Pure by RotoMetals ~ 1 Pound $18.89 99.99% Premium Indium Sheet Foil (100mm x100mm x0.2mm) for CPU Heat Sink, Bonding 1 offer from $22.95 99.99% pure. It is used for materials such . identified to optimize the thermal conductance of the joint. K minimum. Indium has relatively low toxicity. But then there's Pure Indium Thermal Interface Foil. Thermal Conductivity of Materials. The intrinsic thermal conductivity of the film and the thermal CNT boundary resistances between the CNT film and the In contrast to the application of the ASTM D5470 test, the thermal test vehicle provides information at a single clamping pressure. Indium foil (commonly known as "shims") have been applied as a TIM for flange-mount RF semiconductor packages, with mechanical fasteners, for decades. size is 50mm by 50mm Thickness is 0.05mm or 0.002 inches JavaScript seems to be disabled in your browser. The applied power is represented by Q, the thermal conductivity by k, the contact surface area by A, and the material length between the thermal interface and the . The sheet I received was 100mm x 100mm x 0.2mm. foil were used. Silicone based heat sink compound and silver paint improved the conductance more than metallic foil such as indium & annealed copper. Because of its high thermal conductivity (86W/mK), indium is used for a variety of demanding burn-in and test applications. It's also softer and more ductile than paste and putty, covering surfaces better to minimize airflow gaps and increase . . Made of indium, this foil is more thermally conductive than thermal interface materials (TIMs) made of plastic. Indium foil (99.99%) - 50micron thick 100x100mm 100x100mm sheet. The sheets can be custom cut to meet the specific requirements. -Bolted interface with 99.9% indium foil, 0.010" thick -Chosen for its high conductivity (~80 W/m-K) and space flight heritage Concerns: -Indium is subject to cold flow, resulting in a loss of preload over time due to thermal cycling, vibration testing -By covering blind holes in ExPA, potential for entrapped gas is introduced The most common use is as an extremely efficient heat sink for high temperature and cryogenic applications . It seeps into the microscopic grooves between your parts and provides a lifetime of service with no risk of degradation or drying out. The sample pairs were fabricated from OFHC copper, 6061-T6 aluminium, free-machining brass and 304 stainless steel. Note: Indium foil becomes a superconductor at 3.37 K (-270 C), below which the thermal conductivity decreases. Here at Fine Metals, we offer Indium in purities ranging from 99.9% to 99.9985% minimum. Cold welding : Pure unoxidized indium will wet to glasses, ceramics & other metals. which typically have lower bulk thermal conductivity than metals. The pure indium can be clad with a thin aluminum layer on the side facing the DUT to prevent the soft metal from adhering to the surface. Thermal conductivity is an important parameter for TIM. Softness and Malleability Thermal Conductivity Low Thermal Resistance Performance Insensitive to Bondline Thickness Application Versatility - Solder paste, preforms, ribbon Automated Application Reliability - No Pump out Indium foil/solder. Thermal conductivity k for the three pairings of the three thicknesses of magne-sium oxide specimens tested. Heat transfer coefficient. The data demonstrated a linear relationship that can be expressed as follows: R = 2.35 t + 8.28 10 3 cm 2 K W 1 where R is the thermal resistance; t is the thickness of bulk materials. High thermal conductivity Indium foil is now being regularly used for high-efficiency heatsinks (eg for high-power laser diodes) as well as heatsinking at cryogenic temperatures. Acts as a metallic seal against corrosion. Being soft, indium will deform and fill in the microstructure of two mating parts, pressed together using moderate pressure. Indium alloys have melt points from 10.7oC to >200oC. Indium is soft and easily deforms onto the surface of mating parts making it an efficient thermal conductor for use in the electronics industry. Although only copper is shown for Metals dominate heat-sink, spreader, and heat pipe applications due to their high conductivity, as well as their ease and flexibility in fabrication. For a thermal grease, the low thermal conductivity challenge can be minimized if one can create an extremely thin bondline. I am not very familiar with the behavior of indium, but if it oxidizes like aluminum foil, then the oxide layers will prevent the indium from wetting the surfaces (required to get rid of air gap) and the oxide will act as a . Above 1.5 K, the braid thermal conductivity dominates the strap conductance resulting in a near-linear dependence . Of the tested interfaces, indium foil clamped at approximately 445 N showed the highest thermal conductance. It's ductility and thermal conductivity make it ideal as a compressible thermal interface material. a plan-view secondary-ion microscopy image of the thin foil specimen with a thickness less than 50 nm prepared by the Ga/Ar ion beam . Indium metal, for example, has a conductivity of 86W/mK and is 4 times softer than lead. *Able to withstand temperatures from -273 to 155C *Thermal conductivity greater than 10X most thermal greases and thermal sheets (84 w/m-k). Technical Documents Videos Blogs Features & Benefits Indium Corporation manufactures NanoFoil , a nanotechnology material that delivers energy in a controlled and precise manner for joining, energetics and heating applications. It is a measure of a substance's ability to transfer heat through a material by conduction. The thermal conductivity of molten indium antimonide (InSb) was measured using the hot-disk method in short-duration microgravity. K). With a thermal conductivity of 84 W/m-K, manufacturers claim. Indium, the 49th element, was discovered in Germany in 1863. Exceptional pressure seal. Made of indium, this foil is more thermally conductive than thermal interface materials (TIMs) made of plastic. We are left having to measure the ther- . Metal TIMs can be divided into two categories: Volume 103, Number 4, July-August 1998 faces, contacts having a thin sheet of indium foil between the surfaces, and contact surfaces coated with a layer of Apiezon-N TM grease. Our th. those elements, indium (100% purity) is known to be very ductile and has high thermal conductivity. Graphite Foil Thermal Resistance (cm The reason for this is that ideally, a conforming coating allows the entire con-tact surface to transfer heat, rather than a few narrow . The heat transfer characteristics of a solid material are measured by a property called the thermal conductivity, k (or ), measured in W/m.K. . Produces excellent heatsinking for laser diode modules. It has great adhesivity and high temperature resistance, and is non-flowing, non-volatile, non-oxidative at high temperature environment. Indium foil is the most common material used, with thicknesses of 100m, 250m and 500m commonly used. Purity99.99%, 99.999% Density7.31 g/cm3 at 25C CAS No7440-74-6 AppearanceSilver White Melting point156.6 C Boiling point2080 C Thermal Expansion (25C) 32.1 Thermal Conductivity: 0.818 W/cm/K at 298.2 K Pop E., Ravaioli U. 4(b)] at 70 C and 50 psi was constructed to calculate the thermal conductivity. This, in combination with the metal's conductivity and thermal properties, make indium integral to a variety of electronic applications. I was watching a video by Styropyro on YouTube, where he mounted a laser diode to a heatsink using indium foil, saying "it's what the pros use-", and that got me curious; has anyone used indium/indium foil on a CPU for cooling? But if it can then it will be cooller because indiums thermal conductivity is 86W/m-k An SMA-TIM (soft metal alloy) made of indium offers uniform thermal resistance at lower applied stresses in compressed interfaces. Indium is a bright, shiny metal that forms a thin (80-100 angstroms) protective oxide layer. The hot-disk sensor was made of molybdenum foil (thickness, 20 m; radius of sensor region, 3.05 mm) cut in a conducting pattern and placed between two aluminum nitride (AlN) plates (plate thickness, 0.05 mm). Measuring thermal conductivity is straightforward, and can be solved for using the equation = PL/(AT) (1) Where T is the temperature gradient (T1 - T2), L is the distance between T1 and T2, A is the area of a fiber, P is the power being supplied to the sample, and is the thermal conductivity. *Flexible foil 99.995% pure Indium based Thermal Interface Material TIM. Indium lends itself to this application due to its characteristic "stickiness" or "tackiness" and ability to conform to many irregular surfaces. The thermal conductance of pressed contacts which have been augmented with indium foil or Apiezon-N grease has been measured over the temperature range 1.6-6.0 K, with applied forces from 22 to 670N. pliable metal like indium cannot be used due to its low melting temperature, and metals that can handle the high . D Foil form D Exceptional pressure seal D Extremely . The main end-use for indium is in indium tin oxide (ITO), a conductive compound . . thinnest foil) reflects the contribution of the bulk material conductivity to the thermal resistance. The malleability of indium minimizes surface resistance and increases heat flow (conductance). The thermal resistance versus indium thickness curve [Fig. Indium foil is packed inside two hard plastic sheet to make sure the flatness and suitable for transportation. Ideal for creating cryogenic vacuum seals. Thermal Conductivity: 81.8W/m. Extremely malleable. . Reduced Thermal Conductivity in Nanoengineered Rough Ge and GaAs Nanowires. 2) Indium Foil When you need a high-performance Thermal Transfer Interface material for servers, GPUs, and similar type devices where the heat sink can be easily removed and replaced, we recommend the use of Indium Heat Spring 3) Silicone Based Thermal Pastes and Pads 8 and 9) in calculating the correction. size is 150mm by 150mm Thickness is 0.05mm or 0.002 inches JavaScript seems to be disabled in your browser. Similarly, indium can be used as an efficient thermal conductive interface in electronics. Indium is used in a wide variety of applications, based on its unique attributes. Considering indium has a thermal conductivity in the range of 80 - 140 of those wacky units (copper is ~400 for comparison, steel being 10-40) I figured it would work. 359. 2. Some of those properties are: High Thermal Conductivity: >80W/m-k. High Ductility: Indium remains soft/malleable even at cryogenic temperatures. Purity: > 99.995%. Details General Properties As long as some compressive force can be applied holding the parts together, it offers far greater thermal conductivity of 81.8 W/m-k compared to graphite sheets or 8 W/m-k for thermal grease. Figure 1 a shows an SEM image of the surface of the Ti foil with deposited indium nanoparticles. I currently have a b450 tomahawk max running a Ryzen 7 3700x. It is a measure of a substance's ability to transfer heat through a material by conduction. At this temperature, our data give a ratio for the conductivities of k/sub n//k/sub s/=1600 T/sup -2/. The indium is used as a substitute (mostly) for tin (Sn) to adjust the melting temp and avoid the tin gold leaching problem. ndium foil is used for cooling high watt laser diodes. Packing: in double layers vacuumed bag, and drying agent between two layers. Indium Foil Indium foil is very soft, it can be produced with different shapes, thickness and sizes, indium foil has been used as a thermal interface materials, the cooling thermal pad, cpu and an ultrasonic linear block contactor, with the high thermal conductivity, it also can be used as the high-efficiency heat sinks in cryogenics. In addition, molten indium has good wettability on many surfaces including ceramics, glass, and quartz at low process temperatures, making it adaptable to uxless soldering process. In the literature, some researchers have characterized Au/In . K) An estimated 1600 metric tonnes of indium are refined globally each year. Ideal for creating cryogenic vacuum seals. Use Indium containing solder against gold parts/pads and solder joint . In TIM . The thermal conductivity of molten indium antimonide (InSb) was measured using the hot-disk method in short-duration microgravity. It had a high in-plane thermal conductivity of 140 W/mK for spreading and a low cross-plane thermal conductivity of 4 W/mK to avoid a hot spot beneath the tested device. Might be worth a video IMO. Indium - Material Safety Data Sheet (MSDS) Indium Foil is made by pure Indium Ingot which is a very soft and shapable metal, it has great thermal conductivity used an inefficient heat sink for high temperature and cryogenic applications. thermal conductivity measurements was chosen to determine temperature drops across interfaces like air gap, annealed copper plate foil, indium foil, Teflon foil, heat sink compound and silver paint. Note that Fourier's law applies for all matter . Indium ( In ) Foil: 100 mm (W) x 100 mm ( L x 0.1 mm ( T) Polycrystal In Foil. Well it's here, and I had to chance to run it against my new favorite thermal paste. For this reason it is used e Ref 1 suggests 15,000 W/m 2 2 K at 170psi (1.2 MPa) The water-cooling plate is supplied using a water chiller and it is easy to maintain an external wall . Note: Indium foil becomes a superconductor at 3.38 K (-270 C), below which the thermal conductivity decreases. For the thermal K values of other thermally conductive materials, check out our thermal K list. [4] Researchers have also created simulations showing that 3-D structures of h-BN planes connected by boron nitride nanotubes could transfer heat (move phonons) in all . ndium is really soft so it just like a thermal paste fills micro deformaties between the surfaces but i dont know f cpu block can appy enough pressure to squish it. The data demonstrated a linear relationship that can be expressed as follows: R 2.35t + 8.28 10 3 cm2 KW 1 The foil carrier contact area is 443 mm 2. Both are two-part epoxies with good thermal conductivity and bonding strength. A reactive multi-layer foil that provides localized heat up to 1500 C in a nanosecond! The application of patterning is intended to allow the use of a relatively thin foil with a bulk thermal conductivity that is substantially greater than that of traditional polymeric TIM . I know it won't be nearly as liquid as thermal compound but indium is also a very soft metal and should squish enough in theory. Carbon Nano tubes are predicted to have an extremely high thermal conductivity along the axis and may offer alternatives to indium in the future. We have measured the thermal conductivity of a .1-mm-thick Al foil in the normal and superconducting state down to 58 mK. K) compared to the best thermal compound I could find after a quick google search which was 12.5 W/mk. K: Exact Mass: 303.732 g/mol: Gallium Indium Tin Alloy Health & Safety Information. PERFORMANCE CRITERIA FOR TIMS .
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