Plywood

What is Plywood?

Plywood is a versatile engineered wood product made by bonding multiple thin layers of wood veneer together with specialized adhesives. The layers are arranged perpendicular to each other to enhance strength and prevent warping. Plywood comes in various thicknesses, ranging from 3mm to 25mm, making it suitable for a wide range of applications.

Plywood product

Structure of Plywood

The thickness of plywood is determined by the number of layers and the thickness of each veneer. A plywood sheet can consist of 3, 5, 7, or more layers. The cross-grain construction of these layers ensures high durability, minimal warping, and reduced shrinkage.

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📌 Specification of Packaging Plywood

Category	Details
Face	bintangor/bintangor (AA), bintangor/styrax (AB), okume/styrax (AB), styrax/styrax (BC), styrax without knot/styrax without knot (AWBW)
Glue	E2 (water-based glue) / E1 / E0
Core	acacia, styrax ABC grade
Pressing Process	1-time hot press, no cold press, no sanding
Size	8x4ft, 6x3ft, custom cutting size by CNC machine
Tolerance	+/-0.5mm, no minus tolerance

1. Core Layers:

The core is the main part of the plywood, accounting for the majority of its thickness. It is made up of multiple thin wood veneers, typically around 1mm thick. These veneers are usually sourced from fast-growing woods like acacia, rubberwood, eucalyptus, or poplar. The layers are arranged perpendicular to each other to enhance strength and load-bearing capacity.

2. Surface Layers:

The surface layer is the outermost part of the plywood, providing aesthetic appeal and protecting the core. Surface layers can be made from various materials, including:

• Natural Wood Veneer: Offers the natural beauty of wood.
• Melamine: Provides high durability, scratch resistance, and easy cleaning.
• Laminate: Known for its durability, scratch resistance, water resistance, and diverse design options.

3. Adhesive Layers:

Adhesives are used to bond the veneer layers together. Common types of adhesives used in plywood production include:

• UF (Urea Formaldehyde): Cost-effective but has low water resistance.
• MUF (Melamine Urea Formaldehyde): Offers better water resistance.
• Phenolic Resin: Provides excellent water resistance, often used for outdoor plywood.

Popular Types of Plywood Products

Plywood is manufactured in various types to meet the needs of construction, interior design, packaging, and other industries. Below are the most common types of plywood worldwide

Plywood Comparison Table

Plywood Type	Main Material	Thickness
Softwood Plywood	Pine, fir, cedar, spruce	3mm - 25mm
Hardwood Plywood	Birch, eucalyptus, rubberwood	3mm - 30mm
Marine Plywood	Hardwood (eucalyptus, acacia) + Phenolic WBP glue	6mm - 30mm
Furniture Plywood	Birch, eucalyptus, rubberwood, acacia	3mm - 25mm
Formwork Plywood	Hardwood (eucalyptus, acacia) + film coating	9mm - 21mm
LVL (Laminated Veneer Lumber)	Acacia, eucalyptus, pine	12mm - 90mm
MDF	Wood fibers bonded with adhesive	3mm - 25mm
HDF	High-density compressed wood fibers	3mm - 30mm
OSB	Compressed wood strands oriented in a fixed direction	6mm - 25mm
Packing Plywood	Acacia, eucalyptus	6mm - 25mm

1. Softwood Plywood

1.1. Definition

Softwood Plywood is a type of plywood made from softwood species such as pine, fir, cedar, and spruce. It is lightweight, easy to work with, durable, and cost-effective, making it ideal for construction, furniture production, and general-purpose applications.

This type of plywood is commonly used in wall paneling, flooring, roofing, and concrete formwork, providing good structural support while remaining affordable and accessible.

Softwood

1.2. Structure and Characteristics

• Composition: Multiple layers of softwood veneer cross-laminated and bonded with specialized adhesives.
• Common thickness: 3mm - 25mm, depending on usage requirements.
• Surface finish: Can be veneered, painted, or left unfinished, depending on the application.
• Good structural strength: Well-suited for applications requiring moderate load-bearing capacity.
• Easy to process: Can be cut, drilled, planed, and screwed effortlessly.

1.3. Applications

Softwood Plywood is widely used in various industries, including:

• Construction: Used for subflooring, partitions, roofing, and ceiling panels.
• Concrete formwork: Utilized in construction for molding concrete structures.
• Furniture manufacturing: Used for basic cabinets, tables, chairs, and bed frames.
• Packaging and shipping: Commonly used in pallets and export crates.
• Automotive and marine industries: Certain softwood plywood types are treated for moisture resistance and used in vehicle and boat manufacturing.

1.4. Advantages and Disadvantages

✅ Advantages:

• Lightweight and easy to transport.
• Simple to process and cut according to project needs.
• More affordable than hardwood plywood.
• Moderate strength, suitable for general applications.
• Can be reused multiple times in construction projects.

❌ Disadvantages:

• Less durable than hardwood plywood.
• Lower moisture and termite resistance if untreated.
• Surface may contain knots or uneven wood grain.

2. Hardwood Plywood

2.1. Definition

Hardwood Plywood is a premium plywood type made from dense hardwood species such as birch, eucalyptus, rubberwood, walnut, and mahogany. This plywood is highly durable, structurally strong, and has an attractive surface, making it ideal for furniture manufacturing, interior applications, and high-load construction projects.

Due to its exceptional strength and stability, hardwood plywood is widely used in cabinetry, flooring, wall paneling, and even in automotive and marine industries.

Hardwood

2.2. Structure and Characteristics

• Composition: Multiple layers of hardwood veneer cross-laminated and bonded with high-strength adhesives.
• Common thickness: 3mm - 30mm, depending on application requirements.
• Surface finish: Can be left unfinished, veneered, PU-coated, or laminated for increased durability.
• High structural strength: More mechanically robust than softwood plywood, with superior load-bearing capacity and minimal warping.
• Better moisture and termite resistance than softwood plywood, especially when treated with waterproof adhesives or phenolic coatings.

2.3. Applications

Hardwood Plywood’s superior strength makes it suitable for various high-end and structural applications:

• Premium furniture: Used for tables, chairs, cabinets, kitchen countertops, and partitions.
• Construction: Applied in concrete formwork, flooring, ceilings, and structural walls.
• Wood flooring and wall paneling: Particularly for birch and eucalyptus plywood, which have smooth surfaces and beautiful wood grains.
• Automotive and marine industries: Certain hardwood plywood variants are specially treated for water resistance, making them suitable for vehicle interiors and boat construction.
• Acoustic equipment and musical instruments: Used in speaker enclosures, guitar bodies, and piano manufacturing due to its excellent sound properties.

2.4. Advantages and Disadvantages

✅ Advantages:

• High durability and superior load-bearing capacity compared to softwood plywood.
• Smooth and attractive surface, easy to finish with various coatings.
• More resistant to warping, termites, and moisture when properly treated.
• Versatile applications, from construction to high-end furniture manufacturing.

❌ Disadvantages:

• Heavier than softwood plywood, making transportation and handling more challenging.
• Higher cost due to the use of dense hardwood species.
• Requires proper moisture treatment and storage to maintain its quality over time.

3. Marine Plywood

3.1. Definition

Marine Plywood is a high-quality, water-resistant plywood designed for use in wet and humid environments. It is manufactured using hardwood species like eucalyptus and acacia, bonded with phenolic WBP (Water Boil Proof) glue, ensuring superior water resistance and durability.

Marine Plywood is highly resistant to moisture, rot, and fungal attacks, making it the ideal choice for boat building, coastal construction, bathrooms, and high-humidity areas.

Marine Plywood

3.2. Structure and Characteristics

• Composition: Multiple layers of cross-laminated hardwood veneers, bonded with high-grade waterproof phenolic WBP adhesive.
• Common thickness: 6mm - 30mm, depending on application needs.
• Surface finish: Can be veneered, film-coated, or left unfinished, based on requirements.
• Exceptional water resistance: Withstands 72 hours of boiling water without delaminating, thanks to phenolic resin adhesive.
• High resistance to termites, mold, and mildew, making it ideal for outdoor and marine applications.
• Superior mechanical strength, ensuring minimal warping and long-lasting performance.

3.3. Applications

Due to its exceptional water resistance, Marine Plywood is widely used in:

• Boat and shipbuilding: The primary material for boat flooring, marine interiors, and decks.
• Coastal and outdoor construction: Used for exterior walls, roofing, and outdoor furniture.
• Bathrooms and kitchens: Perfect for kitchen cabinets, bathroom partitions, and moisture-prone furniture.
• High-end construction projects: Applied in waterproof concrete formwork, attics, and high-humidity structures.
• Luxury furniture and interior décor: Used for furniture, cabinets, and paneling in areas exposed to high moisture.

3.4. Advantages and Disadvantages

✅ Advantages:

• Superior water resistance, remains intact even under prolonged water exposure.
• Strong, durable, and warp-resistant, ensuring long-lasting performance.
• High resistance to mold, termites, and fungi, making it ideal for outdoor use.
• High-end quality, suitable for luxury and industrial applications.

❌ Disadvantages:

• Higher cost than regular plywood due to advanced manufacturing processes.
• Heavier than standard plywood, making handling and installation more challenging.
• Requires specialized finishing for furniture applications, as it is typically designed for structural use.

4. Furniture Plywood

4.1. Definition

Furniture Plywood is a specialized plywood used in furniture manufacturing due to its smooth surface, durability, and resistance to warping. This plywood is ideal for tables, chairs, cabinets, wardrobes, partitions, and other interior applications.

It is commonly made from birch, eucalyptus, rubberwood, or acacia and can be veneered, laminated, or melamine-coated to enhance aesthetic appeal and scratch resistance.

 

4.2. Structure and Characteristics

• Composition: Multiple layers of softwood or hardwood veneers cross-laminated and bonded with moisture-resistant (MR) glue.
• Common thickness: 3mm - 25mm, depending on usage.
• Surface finish: Can be natural wood veneer, laminate, melamine, or left unfinished depending on requirements.
• High durability, minimal warping: The cross-laminated structure ensures excellent load-bearing capacity and dimensional stability.
• Easy to process and cut: Can be drilled, screwed, and edge-banded with ease, making it ideal for furniture production.
• Health safety: Meets E0, E1, and E2 formaldehyde emission standards, ensuring indoor air quality safety.

4.3. Applications

Furniture Plywood is widely used in various interior and furniture applications:

• Home furniture: Used for kitchen cabinets, wardrobes, TV stands, tables, chairs, and beds.
• Office furniture: Ideal for office desks, partitions, storage cabinets, and shelves.
• Hotel and restaurant interiors: Used in industrial wood doors, decorative wall panels, and partitions.
• Interior decoration: Suitable for wall cladding, ceiling panels, and loft flooring.

4.4. Advantages and Disadvantages

✅ Advantages:

• Smooth and attractive surface, easy to finish with veneer, laminate, or melamine.
• Easy to process, cut, and assemble securely.
• Durable, resistant to warping, and more stable than natural wood.
• Safe for indoor use, meeting emission standards.
• More cost-effective than natural wood, while still ensuring durability and aesthetics.

❌ Disadvantages:

• Lower water resistance than marine plywood; needs surface treatment for humid environments.
• Less rigid than MDF in applications requiring an ultra-smooth surface.
• Quality depends on production processes and adhesive types used.

5. Formwork Plywood

5.1. Definition

Formwork Plywood is a specialized type of plywood used in construction, primarily for concrete formwork. It is designed with a water-resistant film or adhesive coating that allows multiple reuses, reduces concrete adhesion, and ensures a smooth concrete finish after demolding.

Formwork Plywood is typically made from hardwood species like eucalyptus and acacia, with cross-laminated veneers to ensure high load-bearing capacity, moisture resistance, and superior wear resistance.

 

Formwork Plywood

5.2. Structure and Characteristics

• Composition: Multiple layers of hardwood veneer cross-laminated and bonded with high-strength WBP (Water Boil Proof) glue.
• Surface finish: Phenolic film-coated or water-resistant adhesive, increasing durability and reusability.
• Common thickness: 9mm - 21mm, depending on project requirements.
• High water and wear resistance, ideal for harsh construction environments.
• Excellent mechanical strength, capable of withstanding heavy loads without cracking.

5.3. Applications

Formwork Plywood is essential in construction due to its high strength and durability:

• Concrete formwork: Used as molds for pouring concrete in residential and industrial construction.
• Formwork for columns, beams, floors, and walls: Helps shape concrete and ensures a smooth, even finish.
• Bridge, high-rise, and factory construction: Widely used in large-scale infrastructure projects.
• Temporary scaffolding flooring: Some formwork plywood types can be used for temporary construction platforms.

5.4. Advantages and Disadvantages

✅ Advantages:

• Film-coated surface prevents concrete adhesion, making it easy to remove after use.
• Water-resistant and wear-resistant, allowing for multiple reuses.
• High mechanical strength, capable of handling heavy loads without breaking.
• Reduces overall construction costs due to reusability.
• Ensures construction accuracy, creating smooth concrete surfaces and reducing post-construction finishing costs.

❌ Disadvantages:

• Higher cost than regular plywood due to specialized technical requirements.
• Requires proper storage to extend lifespan, avoiding prolonged water exposure.
• Heavier than some plywood types, making transportation and installation more challenging.

6. LVL (Laminated Veneer Lumber)

6.1. Definition

LVL (Laminated Veneer Lumber) is an engineered wood product created by bonding multiple thin veneer layers in the same grain direction, significantly enhancing strength, load capacity, and stability compared to natural wood.

LVL is stronger, more uniform, and less prone to warping or splitting, making it an ideal alternative to solid wood in construction, structural framing, furniture manufacturing, and industrial packaging.

Laminated Veneer Lumber

6.2. Structure and Characteristics

• Composition: Thin hardwood or softwood veneers stacked in parallel grain alignment and bonded using high-strength phenolic or melamine adhesive.
• Common thickness: 12mm - 90mm, depending on application.
• Common width: 30mm - 1220mm.
• Common length: Up to 6000mm, suitable for large-scale structural applications.
• Lighter than steel and concrete, yet maintains high load-bearing capacity.
• Resistant to warping, splitting, and cracking, ensuring long-lasting performance.
• Termite and mold-resistant, thanks to advanced adhesive technology and treatment processes.

6.3. Applications

LVL is widely used across construction, furniture, and industrial sectors due to its high strength, lightweight nature, and excellent load-bearing capabilities:

• Construction: Used as rafters, beams, columns, and structural framing, replacing natural wood.
• Door manufacturing: LVL door frames prevent warping and are more durable than traditional wood frames.
• Packaging and pallets: LVL packing plywood is used for export crates and industrial packaging, ensuring cargo safety during transport.
• Truck and container flooring: Used in truck beds and container partitions.
• Furniture manufacturing: Ideal for high-durability furniture such as tables, chairs, beds, and cabinets.

6.4. Advantages and Disadvantages

✅ Advantages:

• Superior mechanical strength, better than natural wood.
• Lightweight, easy to transport and install.
• Minimal warping and cracking, reducing material waste.
• More resistant to moisture and termites compared to solid wood.
• Sustainable and environmentally friendly, reducing reliance on natural forests.
• Cost-effective, providing an affordable alternative to solid wood.

❌ Disadvantages:

• Lacks natural wood aesthetics, requiring veneer or laminate finishing for decorative applications.
• Not fully waterproof, requiring additional treatment for prolonged moisture exposure.
• Requires specialized machinery for processing due to its high density and strength.

7. MDF (Medium Density Fiberboard) and HDF (High Density Fiberboard)

7.1. Definition

MDF (Medium Density Fiberboard) and HDF (High Density Fiberboard) are engineered wood products made from finely ground natural wood fibers, bonded with adhesive and additives to create high-density panels. Both types feature smooth surfaces, easy machinability, resistance to warping and cracking, making them widely used in furniture, interior decoration, and industrial wood doors.

• MDF: Medium-density fiberboard, commonly used in furniture and interior applications.
• HDF: Higher-density fiberboard, stronger, more durable, and more moisture-resistant than MDF, suitable for wood flooring and high-end interiors.

MDF and HDF

7.2. Structure and Characteristics

Feature	MDF	HDF
Wood fiber density	600 - 800 kg/m³	850 - 1200 kg/m³
Common thickness	3mm - 25mm	3mm - 30mm
Durability	Medium, easy to process	Higher, strong load-bearing
Water resistance	Low, requires surface treatment	Better, suitable for flooring
Surface finish	Smooth, easy to paint	Smooth, stronger surface
Cost	Cheaper than HDF	Higher than MDF

7.3. Applications

Both MDF and HDF are widely used in the furniture and construction industries:

• Furniture production: Tables, chairs, wardrobes, bookshelves, beds.
• Industrial wood doors: MDF is commonly used for door panels, while HDF is used for moisture-resistant doors.
• Wall paneling and partitions: MDF is ideal for decorative use, while HDF is better suited for humid environments.
• Engineered wood flooring: HDF is highly durable and widely used for laminate wood flooring.
• Office and hotel interior design: MDF and HDF with Melamine or Laminate coatings enhance durability and aesthetics.

7.4. Advantages and Disadvantages

✅ Advantages:

• Smooth and flat surface, easy to paint, veneer, laminate, or melamine-coat.
• Minimal warping and shrinking, unlike natural wood.
• More affordable than natural wood, ideal for mass production.
• Easy to machine and shape into various designs.
• HDF is more moisture-resistant and durable than MDF, making it suitable for humid environments.

❌ Disadvantages:

• MDF is not water-resistant and can swell if exposed to moisture for long periods without surface protection.
• HDF is heavier, making it harder to transport and install.
• Less impact-resistant than solid wood, edges can chip under strong impacts.
• Not suitable for outdoor applications, unless specially treated for moisture resistance.

8. OSB (Oriented Strand Board)

8.1. Definition

OSB (Oriented Strand Board) is an engineered wood product made from compressed and bonded wood strands, arranged in a specific orientation and combined with high-strength adhesives such as Phenolic or MDI glue.

OSB is strong, warp-resistant, and more cost-effective than plywood, making it a popular alternative for construction, furniture manufacturing, and industrial packaging.

With its unique layered structure, OSB is more durable than standard particle board (PB) and can be moisture-resistant when properly treated.

OSB

8.2. Structure and Characteristics

• Composition: Multiple layers of wood strands oriented in a fixed direction, improving strength and load capacity.
• Common thickness: 6mm - 25mm, depending on application.
• Lighter than plywood, making it easy to install and transport.
• High load-bearing capacity and excellent warp resistance, ideal for flooring, wall partitions, and roofing.
• Better moisture resistance than particle board, but less water-resistant than plywood or HDF.
• Natural textured surface, does not require veneer but can be painted or laminated for additional durability.

8.3. Applications

OSB is widely used across construction, furniture, and packaging industries, especially for cost-effective structural applications:

• Construction: Used for wall panels, flooring, roof sheathing, and prefabricated housing.
• Furniture production: Ideal for tables, cabinets, and shelves, especially in industrial-style designs.
• Industrial packaging and pallets: A cheaper alternative to plywood for crates, shipping containers, and export pallets.
• Interior decoration: Used in ceilings, wall cladding, bar counters, and showroom displays due to its unique surface texture.

8.4. OSB Classification (Based on EN 300 Standard)

There are four primary OSB types, categorized by load-bearing strength and moisture resistance:

• OSB-1: Used in dry interior applications, such as furniture with minimal structural requirements.
• OSB-2: Suitable for load-bearing applications in dry environments.
• OSB-3: Designed for high load capacity and improved moisture resistance, making it ideal for construction.
• OSB-4: The strongest and most water-resistant OSB type, suitable for high-performance and humid environments.

8.5. Advantages and Disadvantages

✅ Advantages:

• Cheaper than plywood, reducing construction and manufacturing costs.
• Strong and warp-resistant, does not delaminate like traditional plywood.
• Eco-friendly, made from recycled wood materials.
• Unique raw surface, perfect for modern industrial designs.
• Lightweight and easy to transport and install, improving efficiency in construction and furniture assembly.

❌ Disadvantages:

• Not as water-resistant as plywood, requires sealing or treatment for outdoor use.
• Rougher surface than MDF or plywood, may need veneering or laminating for high-end finishes.
• Weaker screw-holding capacity than plywood, edges may chip or break if not handled properly.

9. Packing Plywood

9.1. Definition

Packing plywood is a specialized type of plywood used for packaging, pallets, crates, and export shipping. It is an affordable alternative to solid wood due to its lightweight structure, high strength, and compliance with ISPM 15 export regulations.

Packing plywood from TT PLYWOOD is made from acacia, eucalyptus, and other hardwood species, ensuring stability, durability, and moisture resistance.

Packing Plywood

9.2. Structure and Characteristics

• Composition: Multiple cross-laminated veneer layers bonded with high-strength glue.
• Common thickness: 6mm - 25mm, depending on cargo weight requirements.
• Surface: Can be moisture-resistant treated or left unfinished, ensuring rigidity and strength.
• Lighter than solid wood, reducing transportation costs.
• Warp-resistant and strong, suitable for heavy-duty packaging.
• Complies with ISPM 15 export standards, treated for pest and termite resistance.

9.3. Applications

Packing plywood is widely used across various industries:

• Wooden pallets: Ensuring safe transportation of goods.
• Crate and export packaging: Meets international standards for secure cargo protection.
• Container and warehouse flooring: Provides moisture and pest resistance.
• Industrial machinery and equipment packaging: Ensuring safe shipping of heavy machinery.

9.4. Advantages and Disadvantages

✅ Advantages:

• Cheaper than solid wood, reducing packaging costs.
• Strong, lightweight, and easy to handle.
• No need for fumigation, compliant with ISPM 15 export standards.
• Optimal cargo protection, resistant to impact and moisture.
• Warp and termite-resistant, ensuring long-term usage.

❌ Disadvantages:

• Lacks natural wood aesthetics, suitable for packaging only.
• Not fully waterproof, requires treatment for humid environments.
• Lower weight capacity than solid wood packaging.

Conclusion

There are various types of plywood available on the market, each with distinct characteristics tailored for specific applications. TT PLYWOOD specializes in high-quality plywood, including LVL, packing plywood, film-coated plywood, and furniture plywood.

Plywood Standards and Quality

Plywood quality is assessed based on several critical factors, including formaldehyde emissions, mechanical strength, moisture content, and surface finish. These attributes determine the durability, safety, and overall performance of plywood in various applications such as construction, furniture making, and packaging. Below is a more detailed breakdown of these quality indicators:

Check thickness

1. Formaldehyde Emissions

One of the most important safety concerns in plywood manufacturing is the level of formaldehyde emissions, as this chemical can impact indoor air quality and human health. Plywood is classified into three main emission standards:

• E0: The lowest emission level, considered the safest, making it suitable for indoor applications where air quality is a priority.
• E1: A commonly accepted standard in many countries, balancing safety and cost-effectiveness.
• E2: A higher emission level, typically used in applications where air quality concerns are less critical.

2. Mechanical Strength

The structural integrity of plywood is measured based on its mechanical properties, such as bending strength, tensile strength, and load-bearing capacity. The EN 13986 standard is widely used to regulate construction-grade plywood, ensuring it meets safety and performance criteria for building applications. Strength classifications depend on factors like wood species, adhesive type, and the number of veneer layers.

3. Moisture Content

Maintaining the right moisture balance is essential to prevent warping, cracking, or shrinking. The ideal moisture content for plywood typically falls within the range of 8% to 12%, depending on the intended use and environmental conditions. Properly dried plywood ensures stability, especially in regions with fluctuating humidity levels.

4. Surface Quality and Grading

The surface finish of plywood impacts its aesthetic appeal and suitability for different applications. Plywood is graded based on the quality of its face and back veneers:

• AA Grade: The highest quality, featuring a smooth, defect-free surface, ideal for furniture and decorative applications.
• AB Grade: A high-quality surface with minimal imperfections, often used for cabinetry and interior paneling.
• BC Grade: A lower grade where visible knots and repairs are present, typically used for structural applications where appearance is not a primary concern.

By understanding these quality factors and industry standards, buyers can make informed decisions when selecting plywood for their projects, ensuring optimal performance, durability, and safety.

Latest Plywood Prices

Stay updated on the latest prices for interior, construction, and industrial plywood. Our competitive pricing ensures high-quality products for your projects.

Price List Includes:

• Interior Plywood: For furniture, partitions, and doors.
• Construction Plywood: Film-faced plywood, WBP plywood.
• Industrial Plywood: For pallets, packaging, and export crates.

Technical Specifications: Thickness, dimensions, and quality standards (E0, E1, CARB, FSC).
Prices may vary based on market conditions, supply, and order quantity. Contact us for detailed quotes and bulk order discounts!

📞 For the latest prices and product recommendations, call/WhatsApp: +84 326 942 288 🚀

Plywood Manufacturers in Vietnam

TT PLYWOOD is a leading plywood manufacturer and exporter based in Vietnam. Here’s what we offer:

• Products: Industrial plywood, packaging plywood, film-faced plywood, LVL.
• Services: CNC cutting and custom processing.
• Core Values: Friendly, Professional, Reliable, Responsible.

For more information, visit our website: ttplywood.com or follow us on Facebook: fb.com/ttplywood.

Explore other plywood manufacturers and exporters in Vietnam through platforms like Vietnam Yellow Pages and B2B e-commerce platforms.