First, let me make one thing clear. The silicone sheets we’re discussing today are not ordinary commercially white silicon rubber, non-stick baking mats, or medical-grade silicone scar gel.

We’re focusing on vacuum grade silicone sheets, high tear-strength rubber membranes designed for vacuum and lamination processes, built to handle extreme pressure and repeated use in demanding industrial applications.

So what makes them special? Unlike standard polymers, vacuum forming silicone sheets have a long lifespan, self-healing properties, and exceptional flexibility to endure high-pressure forming. Their specially engineered material provides outstanding elongation and tear resistance, significantly extending production cycles beyond those of unrefined polymers.

With widths of up to 3.8 meters and available in 1mm, 2mm, 3mm, or 4mm thicknesses, these sheets can be customized to fit your exact requirements. Tailored for industries such as woodworking, thermoforming, 3D coating, sublimation, solar panel processing, and glass lamination, having the right silicone sheet is the ultimate choice for durability and versatility.

That’s why I’m writing this guide blog right now, to explore the top 6 industrial sectors where these silicone sheets are making a real impact. Follow me along!

Laminated Bending & Shape Bonding

Laminated bending, also known as bent lamination, is a woodworking technique where thin layers of wood (laminations) are glued together and bent around a form(mould) to create curved parts, offering a way to achieve tight curves and complex shapes that are difficult or impossible with traditional steam bending or cutting. It is commonly used in furniture making and design to craft curved components like chair backs, drawer fronts, or table legs.

What you need to know about laminated bending

1. The Process:

• Thin strips of wood, often veneer or plywood, are glued together with the grain running in the same direction.
• These laminations are then bent around a form (a mold or jig) to achieve the desired curve.
• The form holds the laminations in place while the glue dries, creating a permanent bend.

2. Advantages:

• Versatility: Bent lamination can create a wide variety of shapes, including tight curves and reverse curves.
• Strength: The laminated structure is generally stronger than a solid piece of wood bent in the same way.
• Wood Species: It works well with various wood species, including those that don’t respond well to steam bending.
• Repeatability: It allows for the production of multiple identical curved parts.

3. Applications:

• Bent lamination is used in various woodworking projects, including furniture, boat building, and other applications requiring curved parts.
• Examples include curved chair backs, table legs, and decorative elements.

4. Key Considerations:

• Form: The quality of the form is crucial for achieving a clean and accurate bend. 
• Laminations: The thickness and type of wood used for lamination affect the bending process and the final result. 
• Glue: The type of glue used and the clamping pressure are important for a strong bond. 
• Clamping: Uniform clamping pressure is essential to ensure the laminations are held securely in place while the glue dries.

Please take a moment to watch the video below—it offers a clear and intuitive overview of the laminated bending process.

In addition to a professional vacuum press (such as Columbus, Global, or Artex) and properly prepared workpieces made of wood or wood-based materials, what you truly need is our high tear-strength silicone sheet, model DH2211. Please refer to the technical data sheet below for more details.

And you can download and printing the Technical Specifications – DH2211.

Key Advantages of Silicone Sheets in bent lamination

1. Exceptional Mechanical Strength

✔ High tear and puncture resistance prevents damage from sharp edges or intricate designs.
✔ Superior elongation allows the sheet to stretch and conform to detailed wood shapes, ensuring precise fit.

2. Elastic Recovery for Consistent Performance

✔ Maintains uniform pressure distribution, even on irregular surfaces.
✔ Reduces vacuum pressure loss, ensuring smooth and even bonding.

3. Efficient Heat Transfer for Even Pressing

✔ Excellent thermal properties provide uniform heat distribution across veneered or laminated surfaces.
✔ Prevents warping or uneven adhesion caused by inconsistent heating.

4. High Temperature Resistance

✔ Withstands continuous exposure to temperatures up to 250°C, far surpassing natural rubber membranes.
✔ Extends the lifespan of vacuum pressing applications, even under extreme heat.

5. Flawless Surface Finish

✔ A smooth, defect-free surface prevents imperfections from transferring onto laminated or veneered wood.
✔ Ensures high-quality, professional results every time.

How to Extend the Lifespan of Your Silicone Sheet?

✔ Apply a fine powder coating to reduce friction and enhance flexibility.
✔ Preheat the silicone sheet for about 30 minutes before installation to improve elasticity and ensure a secure fit.
✔ Ensure proper alignment when mounting the sheet onto your vacuum press.
✔ Avoid direct contact with adhesives, oils, or harsh chemicals that may cause deterioration.

By following these best practices, you can maximize the performance and longevity of your silicone sheets, ensuring consistent, high-quality results in every vacuum pressing application.

Wood Veneering & Surface Coating

Wood veneering is a process where thin slices of wood (veneer) are glued onto a shaped form or mold (like plywood or MDF) to create curved or 3D wooden components for furniture, doors, panels, and more, often using vacuum pressing for even pressure.

Everything you should know about wood veneering

What it is:

Veneering involves using thin layers of wood, often a finer or more decorative type, to cover a less expensive or less visually appealing base material.

Why it’s used:

• Cost-effectiveness: Veneering allows for the use of a more attractive wood finish without the cost of using solid wood throughout the entire structure. 
• Stability: The core material (like plywood) provides stability and dimensional integrity, which can be lacking in solid wood, especially with changes in temperature and humidity. 
• Aesthetics: Veneering allows for a wide variety of wood grain patterns and finishes, offering flexibility in design and decoration.

Vacuum Pressing:

A common method for applying even pressure during the gluing process, ensuring a tight bond and preventing wrinkles or bubbles.

How it works:

(1) Prepare the Veneer:

Cut the veneer to the desired shape and size, ensuring it’s slightly larger than the final form.

(2) Apply Glue:

Apply a suitable wood glue to both the veneer and the form or substrate.

(3) Form and Clamp:

Place the veneer on the form and secure it with clamps or a vacuum bag.

(4) Vacuum Press (Optional):

If using a vacuum press, seal the vacuum bag and apply vacuum pressure to ensure a tight bond.

(5) Cure:

Allow the glue to cure according to the glue manufacturer’s instructions.

(6) Remove and Finish:

Once cured, remove the veneer from the form and finish as desired.

Uses:

• Furniture: Creating curved or 3D parts for furniture like chairs, tables, and cabinets.
• Musical Instruments: Building curved parts for guitars, violins, and other instruments.
• Boat Building: Constructing curved panels and hulls.
• Other Applications: Creating decorative panels, architectural elements, and more.

Types of Veneer:

• Paper-backed veneer: Veneer with a paper backing for easier handling and application. 
• Raw wood veneer: Veneer without a backing, offering a more natural look and feel. 
• Two-ply veneer: Veneer with a thin layer of wood glued to a backing layer. 

Disadvantages of Veneering:

• Can be more susceptible to water damage than solid wood. 
• Repairing veneer can be costly and difficult. 
• Requires careful application to ensure a smooth and even bond.

Tips for Success:

• Use a high-quality glue:
• Choose a glue that is suitable for veneering and has good bonding strength.

Ensure even pressure:

• Use clamps, weights, or a vacuum press to apply even pressure during the gluing process.

Control moisture:

• Ensure the veneer and substrate are at the right moisture content to prevent warping or delamination.

Practice:

• Veneering can be tricky, so practice on smaller projects before tackling larger ones.

This video demonstrates how to apply wood veneer to various surfaces:

Here, we continue to recommend our DH2211 silicone rubber vacuum forming sheet (40° Shore A hardness), known for its extremely high elongation, excellent abrasion resistance, and long service life—making it an ideal choice for demanding form verneering applications.

How Long Do Silicone Sheets Last? What Affects Their Lifespan?

Silicone sheets are highly durable, but proper handling significantly impacts their longevity. Common causes of wear include:

✔ Improper handling – Sharp edges or excessive stretching can lead to premature tearing.
✔ Continuous heat cycles – Prolonged exposure to high temperatures can degrade performance over time.
✔ Contamination – Adhesives, oils, or chemicals can reduce elasticity and cause swelling.
✔ Uneven pressure – Poor press setup can create stress points, leading to early failure.

Solid Surface & Thermoplastics Forming

Vacuum pressing and thermoforming are essential techniques for shaping solid surface materials and thermoplastics into functional and decorative forms. In the solid surface industry, materials like acrylic-based composites are preheated and then formed into 2D or complex 3D shapes—ideal for applications such as countertops, sinks, and architectural features. In the thermoplastics sector, vacuum forming is used to mold sheets of ABS, PMMA, PETG, and similar materials into precise components such as casings, housings, and panels.

Must-know information about thermoforming

What it is:

Thermoforming is the ability to process a wide range of plastics, like Corian, Kerrock or Resysta, as well as thermoplastic materials and composite materials, is heated until it softens, allowing it to be molded into various shapes, including curves and 3D forms.

How it works:

• Solid surface sheets are heated to a specific temperature (around 150°C or 300°F). 
• The heated material is then placed over a mold or jig and shaped. 
• Clamps or vacuum presses can be used to hold the material in place while it cools and solidifies in its new form. 
• Once cooled, the material retains its thermoformed shape.

Benefits:

• Versatility: Thermoforming allows for the creation of complex, curved, and 3D designs that are not possible with traditional flat materials. 
• Durability: The resulting thermoformed product is durable and resistant to scratches and stains. 
• Aesthetics: Thermoforming enables the creation of smooth, seamless, and aesthetically pleasing surfaces.

Applications:

Thermoformed products are used in various applications, including:

• Countertops and worktops: Creating curved edges and integrated sinks. 
• Basins and sinks: Forming unique and elegant shapes. 
• Wall panels and cladding: Creating smooth, curved walls and other architectural features. 
• Furniture: Designing custom furniture with rounded edges and complex shapes.

Important Considerations:

• Heat: Thermoforming blanks should be heated to between 275°F (135°C) and 325°F (165°C) during bending. 
• Heat-up times: Determine heat-up times for your oven by calibrating it. 
• Cooling: Ensure the material cools completely to retain its new shape. 
• Minimum Radius: The minimum inside radius for thermoforming is 3″ (76 mm) and some colors require a larger radius. 
• Thickness: Thermoformed piece must be minimum 7/16″ (11 mm) thick.

Examples of Materials:

• Solid Surface Materials
• ABS (Acrylonitrile Butadiene Styrene)
• PMMA (Polymethyl Methacrylate)
• PET-G (Polyethylene Terephthalate Glycol)
• PVC (Polyvinyl Chloride)
• PS (Polystyrene)
• PVC-U (Unplasticized Polyvinyl Chloride)
• PP (Polypropylene)

Brands:

• Corian
• HI-MACS
• Samsung
• Kerrock
• Acrylglas
• Plexiglas
• Novodur
• Staron
• Avonite
• Getacore
• HANEX
• KRION
• WILSONART
• RAUVISIO
• VARICOR
• PLEXICOR
• CROWN-LAMINATES

Vacuum membrane presses are very useful, but the silicone sheets are prone to tearing and are expensive to replace. A little extra care in mould design and forming techniques can greatly extend the life of the membrane. Below video will help you learn more:

Here, we still recommend our DH2211 Silicone sheets, which provide a reliable and long-lasting solution for thermoforming, laminating, and shaping solid surface materials, helping manufacturers enhance efficiency, reduce waste, and improve production consistency.

For custom sizes, thicknesses, and application-specific recommendations, contact Deer Hunter today!

Wood Grain Effect Sublimation Transfer

Wood grain transfer, also known as wood grain effect sublimation, is a finishing process that gives metal or other materials the appearance of real wood. It works by using heat and pressure to sublimate a printed wood-grain pattern from a special film onto the product’s surface.

In simple terms, the pattern on the film is turned into a gas by high heat and infused into a base coat on the item, leaving a permanent wood-like design bonded to the surface.

The result is a realistic wood finish on a sturdy material like aluminum, so you get the look of wood with the durability and low maintenance of metal. This technique is widely used because it creates an authentic grain texture and color (from oak and mahogany to maple or pine) that is hard to distinguish from actual wood, while being resistant to fading, scratching, or weathering.

Aluminum profiles with a wood grain finish achieved by the sublimation transfer process. The printed film’s ink sublimates into a base coating on the metal, leaving a durable wood-like pattern. This process provides the warmth of wood appearance while maintaining the strength and weather resistance of aluminum.

The transfer oven system is specially designed to transfer the grain pattern of polyester film to aluminum profile or plate surfaces, usually with a wood or marble effect on a single surface. The profiles or sheet parts must have been previously coated with special primer powder coating. The transfer process from the film to the profile or sheet surfaces takes place at the gelling temperature of the primer powder coating.

Main Applications of Wood Grain Effect Sublimation

Wood grain effect sublimation is popular across various industries where a natural wood look is desired on high-performance materials. It allows architects, manufacturers, and designers to combine wood aesthetics with the benefits of metal or other substrates.

Key applications include:

• Architecture: Aluminum window frames, doors, and wall panels with a natural wood appearance
• Furniture: Cabinets, wardrobes, and all-aluminum furniture with realistic wood finishes
• Home décor: Wall panels, frames, and decorative moldings
• Appliances & products: Electronic casings, kitchen equipment, or display stands
• Transport interiors: Panels and trims in trains, RVs, or boats

It’s popular across industries that want wood aesthetics without using actual wood.

Remarks:

The versatility of wood grain transfer isn’t limited to aluminum. It can also be done on steel, vinyl/PVC, or coated MDF, allowing virtually any rigid surface to get a wood-inspired makeover. This broad applicability has made wood grain sublimation a go-to solution in sectors ranging from architecture and furniture design to consumer products.

Why Silicone Membranes Matter

Silicone membranes play a critical role in the wood grain transfer process, especially during the heat transfer stage. A silicone membrane is a flexible, heat-resistant sheet (often silicone rubber on one side with a fabric backing on the other) used to cover the wrapped product before it goes into the oven.

Here, we suggest our DH2222 high elastic silicone membrane.

Just download High Elastic Silicone Membrane For Heat Transfer And Sublimation Printing (DH2222) here.

Silicone membranes are essential in this process. During heating, they:

• Press the film tightly onto the surface for a smooth, even transfer
• Distribute heat evenly, avoiding defects or missed spots
• Withstand high temperatures without damage
• Ensure better pattern adhesion, making the finish more realistic and durable

In short, the silicone membrane makes sure the wood pattern looks great—and stays that way.

Solar Panel Lamination (PV)

Solar panel lamination is the process of bonding all layers of a solar module into a single, durable unit. Under heat and vacuum, encapsulant materials like EVA melt and seal the solar cells between protective layers, forming a weatherproof barrier. This step is critical to ensure long-term performance, structural stability, and resistance to moisture, UV, and mechanical stress—helping the panel operate reliably for 25 years or more.

Core Components of a Solar Panel

A solar panel, or photovoltaic (PV) module, consists of key components: photovoltaic cells (solar cells), glass covering, encapsulants, back sheets, an aluminum frame, and a junction box.

(1) Photovoltaic (PV) Cells (Solar Cells):

These are the heart of the solar panel, made from semiconductor materials like silicon, which convert sunlight into electricity.

(2) Glass Covering:

A layer of tempered glass protects the PV cells from the elements.

(3) Encapsulants:

These materials, like ethylene vinyl acetate (EVA), encapsulate the PV cells, providing insulation and protection.

(4) Back Sheet:

A protective layer on the back of the panel, limiting heat dissipation and humidity.

(5) Aluminum Frame:

A sturdy frame, typically made of aluminum, provides structural support and helps with mounting.

(6) Junction Box:

A box that houses the electrical connections, allowing for safe and efficient energy transfer.

Why EVA-Resistant Silicone Sheets Matter

During lamination process, a vacuum system compresses the module layers using a silicone sheet. This membrane must withstand high heat and pressure while ensuring even contact across the panel surface. Because EVA releases adhesive vapors when heated, standard membranes can degrade or stick over time. That’s why manufacturers rely on EVA-resistant silicone sheets—specially engineered to resist heat, outgassing, and chemical reactions. These silicone membrane sheets are critical to prevent delamination, ensure clean encapsulation, and extend both panel and equipment lifespan.

Leading Choices: S2 & S5 Silicone Sheets for Solar Laminators

The S2 silicone membrane sheet is Deer Hunter’s flagship solution for solar panel lamination, widely recognized for its balance of durability, flexibility, and competitive cost. It plays a critical role in the EVA encapsulation process of photovoltaic modules, delivering reliable pressure, excellent heat resistance, and prolonged cycle life in solar laminators.

Core Features

• High Durability: Reinforced with 1-ply premium aramid fabric, ensuring over 4,000 compression cycles without mechanical separation between layers.
• Thermal & Chemical Resistance: Withstands temperatures up to 250°C (482°F), resists EVA outgassing, and offers excellent acid resistance.
• Consistent Quality: Manufactured from 100% silicone rubber with a seamless structure, ensuring no weak points and stable lamination performance.

Reliable Mechanical Performance:

And you can also download TDS – Silicone Membrane Sheet For Solar PV Modules Lamination (S2) here.

Product Structure

• Top Layer: Grey silicone rubber
• Middle Layer: High-temperature-resistant aramid fabric
• Bottom Layer: Grey silicone rubber

The S5 silicone membrane is an advanced, high-performance solution developed specifically for critical solar panel lamination processes. With a dual-material structure and reinforced durability, it offers exceptional resistance to EVA outgassing and long-term degradation, making it ideal for both crystalline and thin-film photovoltaic modules.

Key Features:

• Extended Service Life: Over 10,000 lamination cycles, significantly reducing replacement frequency and machine downtime.

• Advanced Structure for EVA Resistance:
• Top Layer: Black FKM (fluoroelastomer) layer provides superior resistance to EVA outgassing and harsh chemicals.
• Middle Layer: 1-ply premium aramid fabric ensures structural integrity and long-term reinforcement.
• Bottom Layer: Grey silicone acts as a resilient buffering layer with excellent elasticity.

• Outstanding Thermal & Chemical Resistance: Withstands temperatures up to 250°C, with excellent resistance to aging, acid, and alkali environments.

Mechanical & Material Specifications

And you can also download TDS – Silicone Rubber Membrane For Solar Panels Lamination (S5) here.

Both S2 and S5 membranes are specifically engineered for solar panel laminators operating under aggressive conditions. They are compatible with top laminator brands such as Spire, Burkle, NPC, Meier, 2BG, Ecoprogetti, and more—ensuring precise fit, high reliability, and optimal lamination results across a broad range of production lines.

For further details on selecting the best silicone sheet for PV laminators, contact our team or explore our solar membrane solutions today.

EVA Laminated Glass Lamination

EVA (Ethylene Vinyl Acetate) laminated glass uses an EVA interlayer film between two or more glass sheets for enhanced safety and durability, particularly in applications requiring high moisture resistance and aesthetic flexibility.

Lamination:

Laminated glass is created by bonding two or more glass sheets together with a thermoplastic interlayer film, like EVA, in between.

EVA Interlayer:

EVA is a thermoplastic polymer known for its high elasticity, transparency, and ability to bond well to glass.

Benefits:

• Safety: If the glass breaks, the EVA interlayer holds the fragments together, preventing sharp pieces from flying out.
• Durability: EVA provides a strong and durable bond between the glass sheets, enhancing the overall strength and longevity of the laminated glass.
• Aesthetic Flexibility: EVA allows for incorporating various materials, like fabrics, metallic inserts, or colored films, into the interlayer, creating unique and decorative glass panels.
• Moisture Resistance: EVA is more resistant to moisture ingress compared to other interlayers, making it suitable for applications where moisture is a concern, such as outdoor applications.
• Sound Insulation: EVA interlayers can also provide good sound insulation.

Applications:

• Architectural Glass: Used in storefronts, skylights, glass floors, staircases, and facades.
• Decorative Glass: Ideal for creating art glass, stained-glass-style showpieces, and other decorative applications.
• Safety Glass: Used in areas where safety is paramount, such as glass doors, windows, and balustrades.
• Specialty Applications: Can be used in applications like zoo enclosures, aquariums, and hurricane glazing.

EVA vs. Other Interlayers:

• PVB (Polyvinyl Butyral): Another common interlayer, but EVA is often preferred for its better moisture resistance, long-term stability, and ability to bond well to glass.
• SGP (Sintris): SGP is another interlayer material that offers high strength and durability, but is generally more expensive than EVA

In the process, silicone sheets (silicone blankets) are essential. For they are a key component in silicone vacuum bags, which are specifically designed for EVA laminated glass production. These sheets play a crucial role in creating safety laminated glass, ensuring uniform pressure and proper adhesion of EVA interlayer films between glass layers.

A silicone vacuum bag consists of two layers of high-tear-strength silicone sheets, along with sealing strips, vacuum ports, and tubes. The vacuum tubes act as a bridge between the bag and the vacuum pump, creating the necessary vacuum environment to ensure seamless lamination of glass sheets, decorative inserts, and interlayers.

High-Quality Silicone Sheets for Glass Lamination

Our silicone sheets for laminated glass are available in 2mm and 3mm thicknesses and can be customized to meet specific application requirements. Whether you need on-site consultation or ready stock availability, our solutions are tailored to provide efficient and reliable lamination performance.

Key Features of Silicone Sheets for EVA Laminated Glass

✔ Superior Tear Strength – High durability to withstand repeated vacuum cycles.
✔ High-Temperature Resistance – Withstands temperatures up to 250°C, making it ideal for EVA/PVB lamination.
✔ Smooth or Textured Surface Options – Ensures even pressure distribution for bubble-free lamination.
✔ Flexible and Resilient – Maintains elasticity while enduring continuous compression cycles.

Technical Specifications

If you are looking for a U-seal silicone vacuum bag, please click the link to another parallel world..

Silicone sheets for EVA laminated glass provide exceptional durability and flexibility, making them the preferred choice for vacuum glass lamination. If you’re looking for high-quality silicone vacuum bags or sheets, reach out to us for more information.

How to Select and Order the Right Silicone Sheet

Finding the right silicone sheet for your application starts with selecting a reliable supplier. With so many options available, it’s essential to compare quality, pricing, delivery time, and customer reviews before making a purchase.

If you’re looking for tear-resistant, high-performance silicone sheets, we’ve simplified the ordering process at Deer Hunter to make it efficient and hassle-free. Whether you’re an end user, distributor, or wholesaler, our step-by-step guide ensures a smooth procurement experience. Here is a step-by-step guide as follows:

(1) Initial Inquiry

Send us your inquiry with details about the silicone sheet specifications you need, including thickness, width, temperature resistance, and application requirements.

(2) Application Assessment

Our team evaluates your requirements, checking stock availability and determining the best silicone sheet type based on your intended use.

(3) Product Selection

Based on our assessment, we provide recommendations for the most suitable vacuum forming silicone sheets with detailed product specifications.

(4) Quotation

Receive a formal quotation outlining pricing, delivery terms, and payment conditions tailored to your order size and specifications.

(5) Contract Negotiation

Discuss and finalize contract terms, including order quantities, customization options, and shipping details.

(6) Purchase Order Confirmation

Once the terms are agreed upon, submit your Purchase Order (PO) to confirm the order.

(7) Proforma Invoice Issuance

We provide a Proforma Invoice with complete order details for verification before payment.

(8) Advance Payment Processing

After verification, proceed with the initial deposit payment according to the agreed payment terms.

(9) Production Begins

Once payment is received, we begin manufacturing or preparing the silicone sheets to meet your exact specifications.

(10) Quality Control Checks

We conduct strict quality control inspections to ensure all silicone sheets meet performance standards before shipment.

(11) Production Completion Notification

Once production is completed, we inform you and prepare your order for packaging and dispatch.

(12) Balance Payment Settlement

Before shipment, settle the remaining balance as per the agreed payment schedule.

(13) Secure Packing & Shipping

Your silicone sheets are carefully packed to prevent damage and are shipped via your preferred method.

(14) Delivery Tracking

We provide tracking information so you can monitor your shipment’s progress in real time.

(15) Goods Receipt & Inspection

Upon delivery, inspect the silicone sheets to ensure they meet your expectations and confirm receipt.

(16) Documentation & Record-Keeping

Receive all relevant documents, including invoices, packing lists, and quality certificates for your records.

(17) Customer Support & After-Sales Service

Our dedicated support team is available for any post-delivery inquiries or technical assistance.

By following these structured steps, you can ensure a seamless ordering experience for silicone sheets tailored to your specific needs. If you’re ready to place an order or need further guidance, feel free to contact us today!

Wrapping It Up: Silicone Sheets That Outperform Expectations

Today, we focused on industrial-grade silicone sheets, not the ultra-thin PDMS membranes used in lab research or FDA-approved medical seals. While those have their place, our vacuum forming silicone sheets are engineered for high-temperature, high-performance applications across multiple industries.

Unlike FDA or USP-grade materials, our silicone sheets are peroxide-cured and designed to handle real-world industrial challenges. Available in continuous rolls, they are widely used across Europe, America, the Middle East, and beyond—earning top ratings in countries like the USA, Germany, Turkey, and India.

Now, the only question left is: What’s your next move?

Are you ready to put these high-performance silicone sheets to the test? Whether you’re considering a trial order or need a custom solution, we’re here to help.

Drop us a message, send an inquiry through the form on the right, or reach out via WhatsApp (+86-13823789007) or email (sales@cndeerhunter.com)—let’s get your project rolling!