The Basics of Heat Sinks and Extruded Heat Sink

Heat sinks are an important component of any powerful computer because they help in maintaining system performance by dissipating the heat generated by the system. Computers have pre-installed heat sinks; however, the generated heat may be greater than what those pre-installed devices can handle. For this purpose, many users buy additional heat sinks for their systems.

The amount of heat removed by the sink is directly proportional to its surface area. Another important factor is the material of the heat sink. Different materials have different efficiencies. Heat sinks come in a variety of types, including folded fin, skived fin, bonded fin, and extruded aluminum. Each variety has its own unique features and benefits. Let's take a look at extruded aluminum sinks.

Extruded Heat Sink

An extruded heat sink offers several benefits. Extruded aluminum heat sinks cost less compared to other varieties. Here are some features of extruded aluminum heat sinks. Better cooling performance due to a high-density fin. Greater efficiency compared to stamped heat sinks. Lighter in weight compared to copper designs. Suitable for power modules because of the flat back design. Suitable for power assemblies due to different shapes.

Heat Sink Extrusion

To explain the heat extrusion process, let’s consider the manufacturing process of aluminium sinks. These heat sinks are made by pushing or extruding aluminum through a die. The end-product is a cross-cut or straight finished sink. Fins with complex designs can be created with this process.

Customization is another great feature of extruded sinks. You can get them in a variety of shapes. Contact the manufacturer to share your requirements and to discuss which design will best suit your needs.

If you're looking to keep your costs low and get a low price per unit, then you may want to consider extruded aluminum heat sinks.

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How Does a Heat Sink Work on a Computer and What is a BGA Heatsink?

An important fact about powerful and fast computers is that they generate massive quantities of heat. This heat can not only affect the performance of the computer, but it can also cause irreversible damage to the system. Realizing this issue, most manufacturers install heat sinks for all the heat-generating delicate components of their systems. But, depending on the system, the pre-installed sink may not be enough to keep the computer cool. Therefore, many users add heat sinks to their system to enhance performance and maintain stability. Many types are available in the market, from the basic flat metal heat spreader to BGA heatsinks.

What is a Heat Sink

A heat sink is a device, usually made from metal or ceramic, that removes heat from the computer. Depending on the type, the sink may have a flat surface or vertical columns. The greater the surface area of the heat spreader, the more heat it can remove. Vertical columns increase the surface area of the sink, taking more heat away from the delicate components. Besides surface area, the quantity of absorbed heat also depends on sink material.

Heat Sink Types

A variety of heat sinks are available, including bonded fin, stamped fin, extruded aluminum, and skived fin. Each type has its own features and benefits. For example, folded fin heat sinks are made from aluminum or copper sheets and are lightweight. These devices have a high aspect ratio compared to extruded aluminum sinks and a low NRI. The fins are thinner than 0.01 inch and are as high as 1 inch.

Another option is extruded aluminum heat sinks. They are popular because of their lower cost. They are lighter in weight than copper and more efficient than stamped heat sinks. The Stamped fin variety is made from aluminum or copper. This open-top sink is well-suited for a system that requires a thin fin with limited thermal performance. The fins can be 0.008 in thickness.

What is a BGA Heatsink

As the name suggests, BGA heat sinks are mounted to BGA devices. The extruded fins are cut into pins, allowing the heatsink to be used in more diverse ways. These heat sinks are designed for package sizes like T0220 and T0247. You can attach the BGA heatsink to the device or to the PCB depending upon your requirements. Thermal tape, Epoxy, and pushpins are common attachment methods.

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LED Heat Sink Characteristics

A heat sink provides a path for heat from an LED source to an outside medium. A heat sink dissipates power in one of three ways.

· Conduction · Convection · Radiation

Materials for LED Heatsinks

The LED heat sink material affects the dissipation efficiency. Aluminum is the material used most often. Flat-sheet heat sinks sometimes are made of copper. Thermoplastics are a new type of material used for lower than usual heat dissipation requirements.

They are also advantageous when dealing with a complex shape. The thermoplastics are injection moldings that use natural graphite solutions offering a lower weight than aluminum and better thermal transfer than that of copper.

LED Heat Sink Configurations

The LED heat sink can be formed into complicated two-dimensional shapes. Graphite is an exotic cooling solution that has a higher production cost. Heat pipes may be added to a copper or aluminum heat sink to reduce spreading resistance.

The shape of an LED heat sink is significant as the surface of a heat sink is where the thermal transfer takes place. An LED heat sink should be designed with a large enough surface to be effective. Surface area can be increased either by increasing the size of the heat sink or using many fine fins.

A large size heat sink produces better cooling performance, but the space between the fins can generate a considerable difference in temperature between the surrounding air and the fins. Fins that are too close together cause the air between the fins to become nearly the same temperature as the fins themselves and thermal transmission cannot occur. More fins do not always mean better cooling performance.  This is where an experienced and knowledgeable staff can help you create the LED heat sink that your business requires.

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Heatsinks allow devices to operate longer and more efficiently

Any electronic device will generate heat. That is why at times things like a copper heatsink or bga heatsink are necessary. The longer the device is asked to work and the harder the device is asked to work can mean that unsafe levels of heat can be produced that, if not dealt with properly, can cause irreversible damage to the device. As an example that we can all relate to, think about how when you are sitting with your laptop on your lap for a while and you eventually realize that your legs have gotten very hot. This is because the computer has been working very hard for a long period of time. Although the computer has a fan built in that is designed to cool the hardware down, this mechanical work can just add more heat to the situation if it is unable to cool it down to a proper operating temperature.

Some larger devices require much larger heat sinks than just a simple fan on a laptop. A copper heatsink or a bga heatsink work by the same general principals. Heat is first generated by a particular device; this heat is then transferred from the device by a heatsink to a cooling substance which is usually a liquid or just simply air. This transfer of heat can be as simple as a fan or as complicated as the high tech devices in Silicon Valley.

It is never wise to undervalue an investment in the proper heat regulation equipment. The use of heat sinks can drastically lengthen the lifetime of a variety of mechanical and electronic devices. Utilizing them can and will save your business thousands of dollars year over year due to lower maintenance costs as well as getting more lifetime and thus value out of the products your business needs to operate efficiently and succeed.

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Types of CPU Coolers

When constructing your custom computer build one thing you might not remember to carefully consider is your CPU Heatsink and cooler. Your computer’s processor works hard and heats up quickly if it’s not equipped with an adequate cooling system. Carefully examine these different types of CPU coolers available to determine which type suits your build the best.

Passive cooling

This is the most basic type of cooling system and relies solely on the Heatsinks. The Heatsinks takes the heat from the CPU and spreads it across a larger area. Thermal grease or compound is applied to the CPU before the Heatsink. It assists in creating thermal conductivity to pull the heat from the CPU. These are not recommended for newer or high-performance CPUs because they don’t provide enough heat exchange.

Active cooling

Active CPU cooling consists of a heatsink and fan. They are available in many configurations and sizes. Nowadays, they include heat pipes to allow for faster heat exchange to keep the processor cool during operation. The fan circulates the hot air to cool faster and more effectively than a passive system.

Heat pipes

Heating pipes function as conductors in heat sinks. They have a liquid inside that takes the heat from the CPU Heatsink spreader to evaporate the liquid and turn it into gas. After it cools down, the gas goes back to the side of the heat as liquids to do it all over again.

Water cooling

A water cooling system utilizes a radiator and coolant setup for more advanced cooling technology. This aggressive method is achieved by attaching a water block to the heat spreader on the CPU. The coolant can pass through via two different openings with tubes attached to create a complete system including a pump and radiator. Coolant cycles through the system and takes the heat generated by operating the CPU to the radiator. Water blocks also allow you to cool other elements of your build, such as your hard drives or graphics cards, which tend to heat up and need additional cooling under intense gaming or operating conditions. The primary drawback is that a leak could form and damage your other hardware. It’s also pricey and time-consuming to configure.

Selecting from the variety of CPU coolers available is just as important as choosing the other components. Analyze your needs and choose one that suits your budget and needs at the same time.

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The important of aluminum heat sinks

There are many applications for an Extruded Aluminum Heatsinks in various industries. For example, in the computer industry, a heat sink is used to pull heat from the component and dissipate that heat into the air so that it does not harm the electrical component. In several mechanical applications a Extruded Aluminum Heatsinks is used to wick the heat away from the component and keep it cool. A growing number of manufacturers are using an aluminum heat sink for their applications since aluminum is both lightweight and a good conductor for heat dispersion. Excessive heat that is allowed to build up on any of these components could result in system failure that could cause property damage or injury.

It is for this reason that a growing number of companies that want to increase the longevity of their products will make sure that the heat sink that they use is one that is an aluminum heat sink so not only will they cut down on costs from having it installed, but they can rest assured in knowing that the product will operate within temperature thresholds which will add to the life of the product.

The alternative is using a substandard material for heat dispersion which is a risky idea. This is because many businesses pride themselves on the quality of their product and if they use an improper heat dissipater they could not only damage their credibility, but they could also open themselves up to a slew of lawsuits which could end them up in court. This is not what most companies want so they know that aluminum is the best option for them to use when it comes to using heat sinks for their products and the extrusion process that is used in the creation of the component will allow for more even heat dispersion.

To know more about extruded aluminum heatsink and heat sink extrusion please visit the website.

Innovative Extruded Heat Sink Technology Allows Cooling Source to Meet the Demands Placed on the Extruded Aluminum Heatsink

A lot of research is being conducted to come up with low-cost manufacturing methods that will produce an extruded heat sink that incorporates more fins in small-sized heat sink packages. Aluminum is an excellent material for an extruded heat sink. 

Inexpensive tooling is used to shape the fin details of an extruded aluminum heatsink easily. The surface area is limited by the extrusion ratio or the number of fins and the height. A Cooling Source extruded aluminum heatsink is a cost-effective solution for most electronic cooling applications.

Extruded heat sink profiles allow engineers to start or select a design from a pre-tooled extruded heat sink profile. Applications can be for a range of electronic packages. The increased surface area of the complex fin profiles allows for greater heat dissipation while eliminating the time and cost of machining equivalent block aluminum shapes.

The continued advance in consumer electronics and the rapid growth of options for LED lighting bring increased demands for energy with a smaller footprint. Increased power can be detrimental to electronics. The new demands present a thermal management challenge.

The Process

Innovative new processes in aluminum extrusion improve the quality and speed of the extrusions. Higher ratio air-cooled heatsinks are produced that are especially suitable for power electronics and lighting industries.

The most common technology for thermal management of cooling power electronics modules is extruded aluminum heatsinks. Often the technology of manufacturing new products is more advanced than the products themselves. For extruded aluminum, understanding of the material is not enough for designers and engineers to take advantage of the versatility of aluminum.

Cooling Source understands the appropriate extrusion process needed for the most efficient product or material solution.

Complex fin structures are created by forcing aluminum throw extrusion dies. The basic process uses extreme pressure to press aluminum billet logs through the dies to establish the length of extruded aluminum shapes or profiles.

Contact Cooling Source

E-mail or call 925-292-1293 to be put in touch with an expert that has information about the high-performance extruded heat sink profiles used for aluminum extruded heatsinks or other aluminum applications. A custom aluminum extruded heatsink can be designed to fulfill your needs.

Standard sizes are available for easy manufacturing of prototypes. Upon request, custom profiles to meet specific requirements are available. Cooling Source experts show the benefits of a process to help clients decide which extruded heatsink works best for them. 

Extruded aluminum heatsink advantages include:

Most cost-effective solutions for most electronic cooling applications

High fin density that improves cooling performance

Lighter in weight than copper

More efficient than a stamped heat sink

Wide variety of customizable designs

Useful flat back components for power modules

Unique shapes geared for electronic power assembly use

To know more about extruded aluminum heatsink and extruded heat sink visit to website.

Why a Copper Heat Sink is Often the Heat Sink of Choice

A heat sink transfers heat generated by a mechanical or electronic device to a medium such as a liquid coolant or air. From there, the heat is dissipated and allows the regulation of a device's optimal temperature levels.

A heat sink cools graphics processors or central processing units in computers. High-power semiconductor devices such as optoelectronics or power transistors have an insufficient ability to dissipate heat. A heat sink is used to moderate the temperature.

A heat sink maximizes the surface area that is in contact with the surrounding cooling medium. The heat sink performance is affected by factors such as

Surface treatment

Protrusion design

Choice of material

Thermal interface material and heat sink attachment methods also affect an integrated circuit's die temperature. Thermal grease and thermal adhesive improve the performance of a heat sink by filling gaps between a device's heat spreader and the heat sink.

Copper Heat Sinks

Many heatsinks are made of copper. A copper heat sink has desirable properties for thermally durable and efficient heat exchangers. A copper heat sink is an excellent conductor of heat. The high thermal conductivity of the copper heat sink allows heat, to quickly pass through the device. Other desirable properties of a copper heat sink are

Antimicrobial resistance

Biofouling resistance

Corrosion resistance

A copper heat sink has about two times the thermal conductivity as that of an aluminum heat sink. The conductivity is faster and has more heat absorption than a heat sink made of aluminum. Uses for the copper heat sink include:

Electronics

Geothermal cooling and heating

Forced air cooling and heating systems

Gas water heaters

HVAC systems

Solar thermal water systems

Power plants

Industrial facilities

Copper heat sinks are more expensive than aluminum heat sinks and are three times denser.  They are skived and machined. Another manufacturing method is soldering the fins into the base of the heat sink.  

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Cooling Source Strives to Make the Best LED Heat Sink

Light-emitting diodes know as LEDs are a solid-state lighting form. The typical LED light has a piece of material that serves as a semiconductor, an integrated optical lens that shapes the radiation pattern and an LED heat sink that dissipates heat and keeps the operating temperature of the semiconductor low.  Some of the advantages of LED lights include:  Faster switching

Smaller size

Improved physical robustness

Longer lifetime

Lower energy consumption  When used effectively, LED lights have enough power for street and room lighting. They require more precise current and heat management than compact fluorescent lamps and traditional incandescent light. LED lights are relatively expensive.  The life expectancy and performance of an LED light are linked to operating temperature. The lower the running temperature of an LED is, the longer the operating life and the better the performance. A critical aspect of designing an LED light is thermal management to increase the lighting quality and durability.

  A heat sink providing natural convection is usually the means of cooling LED lights. A honeycomb-configured heat sink has been proposed to cool LED lights. The heat sink has a larger surface area and less weight than an LED heat sink used previously.  Experimental tests and numerical simulations were conducted in the investigation of a honeycomb heat sink under natural convection conditions. The research concluded that honeycomb heat sink performance could be improved by increasing cell numbers, aspect ratios, and rub space ratio at the fixed radius of the cylinder.  Further applications and experimenting will determine if the honeycomb design is a viable technique for an LED heat sink. 

Cooling Source has an extensive portfolio of LED cooling solutions. Extruded LED heat sinks are designed for residential and commercial LED lighting. Efficient heat dissipation reduces the cost of LED lighting systems.  The frequency of replacement is minimized. Fixtures are allowed to operate at higher levels of power. The ongoing cost of operation is reduced. LED lighting is eco-friendly. The lights last much longer which further lower the cost of replacement and save time.  Cooling Source has a broad range of cooling technology designed especially for LED applications.

The company uses custom design and LED heat sink solutions for many LED needs. The global LED industry is extremely competitive.  The competition brings new solutions and products to the market more efficiently and faster. Cooling Source focuses on research and development in the field of heat and heat transfer. The company excels in design and production of the LED heat sink for LED light cooling solutions.  As a research and development enterprise, they pay close attention to the needs of their customers. Call them at 925-292-1293.

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The Thought Process Behind Cooling Source BGA Heat Sinks

The aim of designing heatsinks is twofold. The heatsinks need to provide thermal conduction inside and thermal convection on the surface. Evolutionary methods have optimized heatsinks for specific tasks that make efficient use of material and energy.

Nature is a source of inspiration when developing new products. Think about the branched systems of leaf venation and human blood circulation. Both systems take in and transport matter while conserving materials and structural stability. Designs vary based on effects in the environment.

Many successful heat sink designs are based on the same principle. They transport and dissipate heat energy. The result is an efficient solution for the required task. Shapes and processes are in harmonic balance. The technical function of heat dissipation connects intrinsic design of the device for which it is used.

Cooling Source offers a wide selection of BGA heat sinks. Our specialty is providing mechanical attach solutions where heatsinks are connected to the chip without holes or adhesives in the printed circuit board (PCB). The attachment solutions are used for high-reliability applications.

Customers choose Cooling Source when they need reliable, cost-effective cooling solutions. Our BGA heatsinks are made from high-conductivity aluminum. They handle the most demanding applications. We have a variety of attachment options, shapes, and sizes from which to choose.

If a standard option does not meet the customer's needs, we have a custom design service that will. Some of the BGA heat sinks we carry include:

Elliptical Fin BGA Heat Sinks

Pin Fin BGA Heat Sinks

Straight Fin BGA Heat Sinks

Elliptical Fin Heatsinks

Elliptical fin heatsinks are aluminum BGA heat sinks that are highly efficient cooling devices ideal for environments with linear airflow. They are an improvement on cross cut heatsinks that were simply plated fin heatsinks with extra cuts across the fin length. The aerodynamic fins of the elliptical shape make airflow efficiency easier. They are ideal when airflow is limited.

Pin Fin Heatsinks

Cooling Source offers pin fin heatsinks that are well-suited for applications where airflow comes from the top. Precision forged pin fin heatsinks come in passive and active versions. The pin fin heatsinks can be forged of copper or aluminum.

Straight Fin Heatsinks

These heatsinks have many base dimensions and heights up to 15 mm They are ultra-performance heatsinks that have a high aspect ratio. The design of the straight fin heatsinks is optimal for applications with adequate airflow. They offer excellent cooling solutions for PCB layouts that are spatially constrained.

The high-performance ensures a reliable life of the product at a cost lower than other extruded heatsinks. The extruded aluminum keeps costs down, reduces weight, and minimizes thermal resistance. Cooling Source has or makes all of these heatsinks and more. Call us at 925-292-1293.

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Creating Larger Aluminum Heat Sink Extrusions

With continued advancement in consumer electronics and rapid growing LED lighting options, new products require increased energy demands with a smaller footprint. Increased power can cause heat that is detrimental to electronics.

Dealing with that heat presents a thermal management challenge. The most common technology for electronic modules is extruded aluminum heatsinks. There are two categories of extruded aluminum heatsinks – high ratio and low fin.

The fin ratio compares the fin height to the width between the fins. Typically, extruded aluminum heatsinks have a ratio of 6:1. That ratio does not meet most power electronics requirements. The typical ratio needed ranges from 12:1 to 19:1.

A greater fin ratio indicates greater surface area. Greater surface areas mean larger amounts of heat can be removed. Specific technology and experience are required for heat sink extrusions with higher ratios. It's hard to find heat sink extrusions that are more than 24 inches wide.

Heat sink extrusions are thermal devices made of a solid piece of aluminum. Insulators are eliminated and make the heat sink extrusions more thermally efficient. Most heat sink extrusion applications use natural convection, eliminating the need for fans.

Bonded fin heat sinks that have a higher aspect ratio are common means to overcome the heat sink extrusion ratio limitations when higher ratios are required. Friction stir welding (FSW) offers a different approach.

It is eight percent more efficient and has more options. Combining FSW and the extrusion process, heat sink ratios that exceed 40:1 are possible. The combination allows for

Maximum flexibility regarding fin geometry and ratio

The heat sink extrusions footprint

Production of large scale heatsinks

The custom extruded aluminum heatsinks replace bonded fin heatsink coil aspects. FSW is also used for liquid cold plates to seal them efficiently while allowing other features to be added to base plates at a lower cost.

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Cooling Source Inc. Offers LED Heatsinks

Cooling Source Inc. offers LED heatsinks designed to increase the efficiency and lifetime of LED lighting. The LED heatsinks have a radial fin structure that provides omnidirectional airflow. The heat sinks have a silver or black standard finish that provide optimum thermal performance.  

The radial fins are ideal for LED spot light cooling. LED heatsinks are used to absorb and disperse excess heat from the LED diodes and into the heatsinks. Active or passage air circulates the heatsinks to keep them cool.

LED Cooling Solution Challenges

Too much heat damages LED phosphor. The result is  

Lower output of light Color changes Significant decrease in lifespan

The most common issue in LED lighting applications stems from heat sinks that are too small or do not exist. CSI offers a wide variety of LED heatsinks. Included are:

Aluminum stock and small finned heatsinks. Anodized extruded linear heatsinks LED housing LED light engine housing

LED Cooling Solution Recommendations

In general, LEDs that run at or above 350 mA require heat sinks. Excess heat degrades the LED and significantly lowers light output. A conservative three-inch square of heat sink surface area is recommended per watt. High-power LEDs driven around 350 mA are around one-watt.

For thermal resistance, aluminum, gold, copper, and silver are the best metals for conducting heat. The most common for heat sinks is aluminum and copper. Copper melts at a higher temperature, is heavier, and more expensive than aluminum.

Aluminum is used more often than copper for LED heatsinks. CSI provides engineers with base heat sink platforms used to create custom solutions with LED heatsinks. The company delivers aluminum heatsink extrusions that are designed for high heat flux star shaped or round LED elements.

For maximum thermal performance, anodized aluminum is used. CSI designers have adopted the most amazing technology for LED coolers. The innovative designs reach high thermal solution efficiency and work for various LED modules.

Pure aluminum heat sinks are:

Light weight

Easy to install  

Suitable for multiple mounting holes

The heat dissipation efficiency for aluminum heatsinks is better than star heatsinks of the same size. Most lighting designers like flexible mounting hole options because of the aesthetic appearance. They help clients improve designs with appearances that are more aesthetic.

Uses of LED Heatsinks

CSI also carries LED heatsinks that are simple in shape or appearance for traditional LED cooling concepts. The LED cooling solutions from CSI can be used for

1.Bridge lights 2.Dawn lights 3.Floodlights 4.Low Bay 5.Wall packs 6.Wall wash 7.Other luminaire types

The cooling solutions include:

Extruded LED heatsinks, custom designed for major manufactures of LED light engines

High-density die cast LED thermal solutions that are near net shaped and made of aluminum alloy that has high thermal conductivity

Cooling technology that enables a smaller, more efficient design that has a higher lumen output

Call Cooling Source Inc., at 1-925-292-1293 to discuss your LED  heat sink needs.

Technological Aspects of Pin Fin and Bonded Fin Heat Sinks

Pin fin heat sinks are part of a performance-oriented technology. They generate low drop pressure and exceptional cooling power. The omnidirectional system allows air streams to enter the array of pins from all directions.

Pin fin heat sinks are a flexible approach. The parts can be modified to fit specific requirements of an application. Characteristics of pin fin heat sinks include:

Round pins that present minimal incoming air resistance

Omnidirectional feature allows air streams to enter from any direction

Extensive air turbulence generated by round pins

Large surface area per volume

Highly conductive alloy composition

The pin fin heat sinks are manufactured with a cold forging process. They are made out of copper and aluminum. Profiles for pin fin heat sinks can be square, rectangular, or round. They are RoHS compliant. Designs configurations include:

Moderate

Flared

Splayed

Sparse

Pin fin heat sinks are designed to maximize the surface area and for turbulent air flow induction near the pin fins.

Bonded Fin Heatsinks

When the box gets too small, or things get too hot, bonded fin heatsinks increase the surface area without an increase in volume. Thermal resistance is reduced by a third to a half. Bonded fin heatsinks provide cooling for forced convection with 100 W of power or more.

Augmented surface bonded fin heatsinks reduce the overall thermal resistance by 15 to 25 percent. The option increases the air flow turbulence at the same time that multiple, short air channels are substantially increasing heat removal.

There are many benefits for thermal design engineers who choose bonded fin heatsinks over conventionally extruded aluminum heatsinks. The tightly controlled assembly technique increased the fin count which allows the manufacturing process to be independent of the base extrusion.

The process removes the limitation of conventional fin extrusion ratios dictated by the extrusion dies’ steel strength. Bonded fin heatsink parts offer the highest possible fin ratios. They can be 30 to one or greater.

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Cooling Source Knows that Extruded Aluminum Heatsinks Are the Up and Coming Trend in Heat Sink Extrusions

Cooling Source continues to meet and exceed the expectations of its customers by delivering the highest quality heat sink extrusions at competitive prices. The superior engineering solutions are responsive to the needs of their clients.

They aggressively pursue improvement opportunities throughout the company’s organization so that they can offer manufacturing expertise to all customers regardless of their size. The hope is to develop long-lasting relationships with their clientele.

Cooling Source supplies extruded aluminum heatsinks for a diverse set of industries. A few of the industries are:

Automotive suppliers

Military contractors

Lighting component manufacturers

Durable package goods providers

The commitment to quality assures each valued customer realizes the same level of customer satisfaction. Every effort is made to eliminate non-conformance in their process and promptly deliver every product order.

Extruded aluminum heatsinks are quickly becoming the new generation choice for aircraft and automobile components. They are in demand for ordnance products and many industrial and commercial can-shaped designs.

Cooling Source is well positioned for growth in the future. As the company continues to meet fabrication needs, it challenges the members of the organization to do more, faster and better. They know improvement leads to success for customers and strengthens relationships.

The dedicated staff of engineers assists in the development of an optimal design. Heat sink extrusions have a range of secondary operations. Cooling Source is striving to reduce the number of supply chain vendors required by their clients.

Formula for Success

The depth of resources for extruded aluminum heatsinks is impressive. The highly qualified staff carefully cultivates business alliances with the use of CNC machining and in-house design and development tooling.

Cooling Source is proud of its past accomplishments. The company recognizes history is not a guarantee of future success. Attempts are made to anticipate market trends and formulate plans to meet implied needs.

The focus is on continuous improvement. Cooling Source continuously re-evaluates their processes to achieve technology advantages. They strive simultaneously to enhance quality and reduce costs that can be passed on to customers.

What Distinguishes Cooling Source from Its Competition

Improvement of the manufacturing and overall prototype designs of extruded aluminum heatsinks

Replacement of inefficient processes with techniques better suited for mass production

Meeting challenging time-to-market requirements and deadlines

Reduction in scrap that requires secondary machining

Increase in the customers’ profit margin

Types of clients they serve are companies outsourcing production of established items, companies exploring cost reduction design possibilities, and start-up companies. Call Cooling Source at 925-292-1293 for heat sink extrusion services and manufacturing capabilities.

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