• Full range of HPL-03015
  • HPL-03015 with no minimum order required
  • More than 10 years of HPL-03015 manufacturing experience
  • Excellent customer services

HPL-03015 Bergquist Thermal Clad PCB Benefits

Here are some of the benefits of using HPL-03015 Bergquist insulation cladding:

-Low thermal resistance
Low thermal resistance of 0.05°Cin²/W.
High thermal conductivity
High thermal conductivity of 2.2 W/m-K.
-High temperature applications

This sheet can be applied at high temperatures.


What Factors consider when Selecting Bergquist HPL-03015 Thermal Clad?

When we select PCB materials, we need to consider some data sheet while produce print circuit boards. Here are the main factors we need to consider when choosing the right Bergquist HPL-03015 thermal cladding:

Brands of Thermal Clad&Operating temperature of thermal cladding
Part numbers for hot cladding&Certification, UL, CE and Rohs.
Depending on the customer’s needs, Venture can provide you with the perfect solution for all Bergquist HPL-03015 thermal cladding to support you.

Bergquist HPL-03015 Thermal Clad for Customing

Yes, Venture is a reliable Bergquist HPL-03015 Thermal Clad material provider, we can provide you with custom Bergquist HPL-03015 thermal insulation cladding.

Customers can propose a unique design for Bergquist HPL-03015 hot cladding, we will manufacture it according to the customer’s requirements, we can help you through the entire design and production and testing process to ensure that the customer receives a product that is intact and without damage.


HPL-03015 description

Venture is a trusted manufacturer of HPL-03015 in China for more than 10 years. Our HPL-03015 is manufactured for high-power lighting. It possesses excellent dielectric lower operating temperatures. Venture HPL-03015 is also fabricated through advanced technologies and manufacturing equipment. Our HPL-03015 is manufactured with advanced features that can give you more benefits. Surely, Venture HPL-03015 will satisfy your demands and requirements.

Your Leading HPL-03015 Supplier in China

For over a decade, Venture becomes the most trusted supplier of HPL-03015 in China. Our HPL-03015 features a high thermal performance dielectric.

Our HPL-03015 is fabricated specifically for applications like high-power lighting LED that requires thermal performance.

Venture HPL-03015 is equipped with 0.0015” thin dielectric. It gives our HPL-03015 capability to endure high temperatures with 185˚C glass transition.

HPL-03015 article 1

Aside from that, Venture HPL-03015 is engineered with 0.30˚C/W phenomenal thermal performance. We manufacture HPL-03015 that minimizes thermal impedance for optimized performance.

It also conducts heat more efficiently and effectively than any standard printed wiring boards. Because of its low thermal impedance of our HPL-03015 offers a cost-effective solution. This eliminates additional LEDs for a simplified design.

Our HPL-03015 features a thermal clad that results in low operating temperatures. This makes our HPL-03015 to extend LED lifetime and gives superior durability for any high-power lighting applications.

Venture HPL-03015 offers the following benefits:

  • Lead-free solder compatible
  • Very low thermal resistance
  • High-temperature applications
  • High-thermal conductivity
  • Eutectic AuSn compatible
  • Copper metal and aluminum substrates available
  • RoHS compliant

HPL-03015 article 2

If you are looking for a reliable quality HPL-03015 for your project or business, Venture can provide your needs! We offer the best deals if you purchase HPL-03015 from us!

Venture offers affordable rates for your HPL-03015 orders. We also have flexible payment terms without MOQ to support you. Plus, the best delivery options will be provided for a stress-free buying experience!

We always look forward to skyrocketing your business or projects. That’s why our expert engineers and designers fabricated high-quality HPL-03015 that will suit your needs!

For more information regarding our HPL-03015, contact us directly!

HPL – 03015: The Ultimate FAQs Guide


Before you invest in a new HPL-03015 Bergquist Thermal Clad, read this guide.

It has information that will help you choose high-performance material for all your PCB fabrication purposes.

So, if you want to learn more, read this guide.

What is HPL-03015 Bergquist Thermal Clad?

HPL-03015 Bergquist Thermal Clad is a superior type of dielectric that you will use to lower operating temperatures.

You will use HPL-03015 Bergquist Thermal Clad specifically for the lighting of high-power LED applications that have high thermal requirements.

High-Power LED HPL-03015 Bergquist Thermal Clad

High-Power LED HPL-03015 Bergquist Thermal Clad

What is the HPL-03015 Bergquist Thermal Clad Typical Values?

There are specific values that you will use in the proper identification of the HPL-03015 Bergquist thermal clads.

These typical values will pinpoint you to the direction of the most appropriate thermal clad for specific applications.

Here are the main typical values that you should pay close attention to when looking for HPL-03015 Bergquist Thermal Clad.

  • Thermal Properties
  • Electrical Properties
  • Chemical Properties
  • Mechanical Properties

What are the Thermal Properties of HPL-03015 Bergquist Thermal Clads?

Thermal properties entail the behaviour of HPL-03015 Bergquist Thermal Clad when you expose them to heat.

In other words, they are the properties of HPL-03015 Bergquist Thermal Clad in relation to its conductivity of heat.

Here are the main thermal properties of HPL-03015 Bergquist Thermal Clad that you should pay close attention to.

Thermal Conductivity

Thermal conductivity is the degree to which HPL-03015 Bergquist Thermal Clad transfers heat from one point to another.

HPL-03015 Bergquist Thermal Clad is a very good thermal conductor with a value of 7.5 W/m-k.

You can test the value of thermal conductivity on the material through MET 5.4-01-40000 test methods.

Dielectric Thermal Conductivity

Here, you will look at the conductivity of heat via the storage and dissipation of magnetic and electric energy.

You will note a usual value of 3.0 W/m-k using the ASTM D5470 test methods of the HPL-03015 thermal clads.

Thermal Resistance

It is the ratio of the temperature difference between two faces of materials to the rate of heat flow per unit area.

It will determine the heat insulation properties of the HPL-03015 thermal clad which is higher in low heat loss.

Thermal Impedance

It is the sum of the resistance of materials as well as its contact resistance of the HPL-03015 thermal clads.

Since the HPL-03015 thermal clads is a very good conductor of heat, it implies that the thermal impedance is low.

Glass Transition Temperature

Glass transition temperature is the temperature where the component materials of HPL-03015 thermal clad changes state from hard to soft.

You will measure the value of glass transition temperature in terms of stiffness or modulus.

HPL-03015 thermal clads have a glass transition temperature of 185 degrees centigrade with testing method of ASTM E1356.

Maximum Operating Temperature

This is the highest temperature which will provide the most sufficient flexibility for controlling the operations of the thermal clad.

The maximum operating temperature of HPL-03015 thermal clad is 140 degrees centigrade over UL 796 test methods.

Maximum Soldering Temperature

This is the maximum temperature that you can use in the soldering of the HPL-03015 thermal clad successfully.

You will note that maximum soldering temperature of HPL-03015 thermal clads is set at 325 degrees centigrade under UL796 test methods.

How Does the Dielectric Constant Compare to Dissipation Factor of HPL-03015 Thermal Clads?

When it comes to electrical properties of the HPL-03015 thermal clads, you can look at dielectric constant and dissipation factor.

Dielectric constant is the ratio of electric permeability of free space to electric permeability of the thermal clad.

You can use the simple capacitor model to derive the dielectric constant of the HPL-03015 thermal clad.

Using the ASTM D150 test methods, you will get the value of the dielectric constant of HPL-03015 at 6.6.

On the other hand, dissipation factor is the measure of rate of energy loss in the HPL-03015 Bergquist thermal clad.

The dissipation factor of HPL-03015 thermal clad is 0.003/0.005 using the ASTM D150 test methods.

What is the Difference Between Volume Resistivity and Surface Resistivity of HPL-03015 Thermal Clads?

On the same note of electrical properties, you will look at volume resistivity and surface resistivity of HPL-03015 thermal clads.

The volume resistivity of HPL-03015 thermal clads refers to its ability to resist leakage.

You can use it in the calculation of potential gradient ratio in relation to electric current in the thermal clad.

The volume resistivity of the HPL-03015 thermal clad is 1 0hm-m under the ASTM D527 testing methods.

On the flip side, surface resistivity defines resistance to leakage of current along different types of insulating materials.

The surface resistivity of HPL-03015 thermal clad is 1 ohm-m under the ASTM D527 method of testing.

Which Mechanical Properties Make Up the HPL-03015 Bergquist Thermal Clads?

Well, you must also pay close attention to the mechanical properties of the HPL-03015 thermal clads.

Mechanical properties of Bergquist HPL-03015 laminates define the behavior of the thermal under the application of particular forces.

HPL-03015 Bergquist Thermal Clad

HPL-03015 Bergquist Thermal Clad

Here are the main mechanical properties of the HPL-03015 thermal clads you ought to know about.


This is the visual impression that you will come across when you look at the HPL-03015 thermal clads.

You can choose any color that fits your application requirements with the most dominant color being white.

The main test method of the color in HPL-03015 laminates is the visual test method.

Dielectric Thickness

You can define dielectric thickness as the dimension of HPL-03015 laminates that determines the voltage that these materials can withstand.

You can have a dielectric thickness of 38 micrometres under the test method of visual inspection or measurements.

Peel Strength

Peel strength is the ability of the HPL-03015 laminates to resist peeling off of the bonded materials under high temperatures.

This type of Bergquist thermal clad has a very high peel strength of 0.9 Newtons per millimetre applying ASTM D2861 test methods.

Storage Modulus

Storage modulus defines the measure of the elastic response of the HPL-03015 while measuring the stored energy.

The storage modulus of HPL-03015 thermal clad is 18/12 GPa at 125 over 150 degrees centigrade under the ASTM-4065 test-method.

What are the Quality Certifications for the HPL-03015 Bergquist Thermal Clads?

You should also pay great attention to the quality certifications of the HPL-03015 thermal clads.

The quality certifications will ensure that you use the hi9ighest quality of materials that will guarantee safety.

Here are the main quality certifications that you have to pay close attention to.

  • ASTM Quality Certifications
  • UL Quality Certification
  • International Standard Organization (ISO) Quality Certifications
  • RoHS Quality Certifications
  • CE Quality Certifications
  • Current Good Manufacturing Properties (cGMP) Quality Certifications

What are the Applications of HPL-03015 Bergquist Thermal Clads?

You can use the HPL-03015 thermal clads in the thermal control of quite a number of applications.

It will come in handy on different applications thus eliminating potential damages from excess heat.

Here are some of the uses of the HPL-03015 thermal clads:

High Watt-Density Applications

You will use the HPL-03015 thermal clads in high-watt densities where the achievement of low thermal resistance is necessary.

In other words, due to its perfect heat-conducting abilities, it is capable of maintaining low thermal resistance.

Backlighting Applications

You can also use it in backlighting applications especially in controlling of heat in the LED lighting applications.

It will ensure that you get the best performance of the backlight over longer periods without producing excess heat.

Head Lamp Applications

Due to the perfect ability to conduct heat and electricity, it will help in producing proper light from the headlamps.

Even though headlamps produce a lot of heat, the heat will not affect the headlamp performance or durability.

LED Applications

You will have the HPL-03015 thermal clads on the light-emitting diode applications to help in reducing heat production.

It will help in maintaining the brightness of the light-emitting diode applications without burning the elements on the LED appliances.

Which Chemical properties of HPL-03015 Bergquist Thermal Clads?

Chemical properties are the properties of HPL-03015 laminates which you will observe during a chemical reaction.

There are quite a number of chemical properties that you will see on the HPL-03015 thermal clads.

Here are the main chemical properties that you will find on the Bergquist HPL-03015 laminates:

Water Vapor Retention

You should have a look at the water vapor retention of the HPL-03015 Bergquist thermal clads.

It has very low water retention abilities or properties that make them practically waterproof.

In case you test the water vapor retention ability of HPL-03015 using the ASTM-E595 method, the results will be 0.11% wt.

Outgassing Total Mass Loss

You should also understand that the outgassing total mass loss of HPL-03015 laminates is very low.

Using test methods of ASTM E595 you will get a value of 0.15% wt. signifying very low levels of outgassing.

Which Details Do You Use to Specify the HPL-030315 Bergquist Thermal Clads?

You may go through a rough time trying to figure out how to customize your HPL-03015 thermal clads.

There are particular details you need to know more about before customization or purchase of the thermal clads.

Here are the main details that you will provide for proper verification of your requirements:

Dimensions of the HPL-03015 Thermal Clad

You must provide the size of thermal clad that you would like to use in various applications.

In this case, you will provide details about the thickness, and panel size of the HPL-03015 thermal clads.

Type of Materials

You must also provide details on the types of materials that you would like to use on the thermal clad.

Usually, the main materials that you will use are aluminium and copper which will provide thermal clad properties.

Final Finishing

You will also provide details on the visual impression that you will have on the final finish of the thermal clad.

There are different surface finishes that you can choose from including HASL, ENIG, OSP, and HASL Lead free among others.

Do You Have a Minimum Order Quantity for the HPL-030315 Bergquist Thermal Clads?

Yes, we do have a minimum order quantity for the HPL-03015 thermal clads.

The minimum order quantity usually varies according to the supplier’s production specification details.

You can either have the minimum order quantity in terms of:

  • Number of pieces which can be 200 pieces
  • Dimensions which can be 1000 square meters or 1 meter

What are the Main Materials for Manufacturing HPL-030315 Bergquist Thermal Clads?

The main materials that you can use in the manufacturing of HPL-03015 thermal clads are aluminum and copper.

You should consider using both copper and aluminum because of the high rate of thermal conductivity.

Copper is also a very good conductor of electricity and will increase electrical conductivity of HPL-03015 thermal clads.

Heavy Copper HPL-03015 Bergquist TCLAD

 Heavy Copper HPL-03015 Bergquist TCLAD

In addition to that, aluminium and copper are light in weight and will not increase the weight of the electrical appliances.

You will also have a great time machining both copper and aluminium due to ease of machining both materials.

What is the Thermal Conductivity of HPL-030315 Bergquist Thermal Clads?

Thermal conductivity of HPL-03015 thermal clads is one of the most significant factors you ought to understand.

It is relevant to the thermal performance of the application in terms of dielectric material thickness, interfacial area and resistance.

You must also understand that thermal conductivity will vary according to the type of materials that you use.

For instance, copper has a thermal conductivity of 2.0 – 385 while aluminium has between 0.8 to 10.

What are Standard Methods for Measurement of Thermal Conductivity of HPL-03015 Bergquist Thermal Clads?

You can choose among the numerous methods of testing the thermal conductivity of the HPL-03025 thermal clads.

It is important to note that the results you get might vary according to the test method of choice.

For that reason, you ought to use similar test methods when comparing the thermal conductivity of different materials.

You can opt for the standard test methods which include:

ASTM E1461

This is a transient method that you can also identify as laser flush diffusivity.

You will use the thermal diffusivity for the test output and calculation of thermal conductivity.

ASTM D5470

This is a steady testing method which you can also refer to as the guarded hot plate.

You will use this method to provide analytical values which do not involve forms of approximations.

What is the Non-Standard In-House Test Method of Measuring Thermal Conductivity?

You can also opt for non-standard in-house test methods to measure thermal conductivity.

It will, however, not provide the most accurate depiction of the thermal conductivity status of thermal clads.

You can use it in the prediction of the most suitable thermal conductivity other than proper thermal performance.

How Does HPL-03015 Bergquist Thermal Clad Compare to HT-04503 Bergquist Thermal Clad?

Bergquist HPL-03015 Thermal Clad

Bergquist HPL-03015 Thermal Clad

You can either opt for the Bergquist HPL-03015 thermal clad or Bergquist HT-04503 thermal clads.

When deciding on the Bergquist thermal clad type to use, you should consider HPL-03015 for LED applications since it is more suitable.

HT-04503 thermal clads will also work well in the dissipation of heat in motor drives and heat rails among others.

Which Properties of HPL-03015 Bergquist Thermal Clad Affects the Cost?

When purchasing your HPL-03015 thermal clads, you have to consider the minimum order quantity.

In other words, quantity of the thermal clads you purchase will affect the amount of money that you will pay.

This implies that an increase in the number of thermal clads you purchase translates to an increase in cost.

Apart from that, the quality of the thermal clad also plays a significant role in the overall cost.

The higher the quality, the higher the amount of money you will pay for the thermal clads.

Generally, you will pay between 0.90 to 12 US dollars per piece or square meter of HPL-03015 thermal clads.

Why Should You Import Your HPL- 03015 Bergquist Thermal Clads from China?

China is the manufacturing hub for the HPL -03015 Bergquist thermal clad that you should look at.

Here are some other reasons that should compel you to purchase thermal clads from China.

Low Cost of Manufacturing

You will get very high quality HPL-03015 thermal clads from China at very low prices.

The cost of materials and labor is low thus reducing the overall cost of purchasing HPL-03015 thermal clads.

Ease of Transport

You can also transport the HPL-03015 laminates to any part of the world through the efficient transport network system.

It has the best roads, sea ports, and airports that you can access easily for transport of your thermal clad cargo.

At Venture Electronics, we help you get the best Bergquist PCB material for all your printed circuit board fabrication needs.

Contact us today for affordable and high performance HPL-03015 Bergquist thermal clad needs.

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