MH-CHP
MINGHUNG
This production line is specifically designed to meet the growing market demand for thin, high-performance MDF. By processing poplar wood, whose material properties are well-suited for this purpose, the produced thin MDF boasts advantages like uniform texture, good strength, and a smooth surface, making it widely applicable in furniture manufacturing, decoration, packaging, and other fields. The line employs continuous roller press technology, overcoming the limitations of traditional multi-opening presses in producing boards thinner than 8mm, enabling efficient, continuous, and stable production of thin boards.
Main Technical Parameters
Parameter Item | Technical Indicators & Characteristics |
Product Type | Flexible Poplar Medium Density Fiberboard (MDF) |
Rated Daily Capacity | 150 cubic meters |
Producible Thickness | 2mm - 8mm(Focus on thin boards) |
Raw Material Compatibility | Poplar wood, twigs, and other small-diameter wood |
Production Line Features | Continuous roller pressing, automated control, high efficiency, energy saving |
Quality Control & Inspection | Online moisture detector (e.g., IMS-8B), metal detection device |
Automation & Intelligence | Central electrical control system, PC/PLC control, potential support for MES integration |
I. Raw Material Preprocessing & Fiber Preparation Section
This is the starting point of production, responsible for converting raw materials into qualified resinated fibers.
Process Flow: Chip Preparation → Washing & Screening → Fiber Separation → Resination → Fiber Drying
II. Forming & Pre-pressing Section
This section spreads the dry fibers into an even mat and performs initial compression to prepare it for hot pressing.
Process Flow: Fiber Forming → Pre-pressing → Mat Cutting
III. Hot Pressing & Curing Section (Core Section)
This is the core of the production line where the mat is cured and formed under high temperature and pressure, determining the final physical properties of the board.
Process Flow: Mat Conveying → Continuous Hot Pressing → Initial Cooling
IV. Post-processing & Finishing Section
This section performs precision processing on the pressed board to achieve the final dimensions and surface quality required by the market.
Process Flow: Cooling & Conditioning → Length Cutting → Edge Trimming → Surface Sanding → Sorting & Stacking
1. Drum Chipper
Working Principle: Utilizes flying knives mounted on a high-speed rotating disc to form a cutting pair with the bed knife, chipping raw wood, slab offcuts, and other wood raw materials into uniform-sized wood chips.
Main Components: Heavy-duty base, large knife disc, flying knives and bed knife, feed chute, discharge outlet, drive system.
2. Defibrator (Refiner)
Working Principle: Pre-treated wood chips are steamed and softened under high-pressure saturated steam and then fed into the gap between thenether millstone. Under high temperature and pressure, the chips are separated into wood fibers by the mechanical tearing action of the plate segments.
Main Components: Preheating digester, screw feeder,refiner housing with rotating and stationary plates, main shaft drive system, pressure application device.
3. Fiber Dryer
Working Principle: Uses high-temperature airflow as a drying medium to suspend and transport wet fibers within a pipeline or drying drum instantaneously, rapidly evaporating internal moisture to achieve the required moisture content.
Main Components: Drying pipe (or drum), heating device (e.g., hot gas generator), feeder, cyclone separator, fire prevention system.
4. Fiber Forming Machine
Working Principle: Uses mechanical throw-rollers or the principles of air pressure and vacuum to spread dried, resinated fibers evenly and symmetrically onto a continuously moving forming belt, creating a uniform mat with a specific width and initial thickness.
Main Components: Forming head (mechanical or pneumatic), storage bin, metering device, forming belt, drive unit.
5. Continuous Pre-press
Working Principle: Applies specific linear pressure to the fluffy fiber mat through one or more pairs of counter-rotating press rolls, performing initial compression to remove some air and increase mat density, giving it sufficient strength for transportation and subsequent processing.
Main Components: Frame, upper/lower press rolls, pressure adjustment device, conveyor belt.
6. Continuous Roller Press
Working Principle: The mat passes between a steel belt and a series of heated large rollers. The steel belt presses the mat against the heated rollers. By adjusting the roller temperature, pressure, and line speed, the mat is heated and pressed in a continuous dynamic process, completing the resin curing reaction to form a continuous board.
Main Components: Heated roller set, pressure steel belt, tensioning device, heating system, frame.
7. Board Cooling Turner
Working Principle: Separates the high-temperature boards after pressing one by one and conveys them to a multi-story cooling rack. Forced convection by fans allows the boards to cool fully in a natural state, eliminating internal thermal stress and stabilizing board dimensions and properties.
Main Components: Infeed roller table, board lifting device, turning mechanism, multi-story storage rack, air blast cooling system, discharge mechanism.
8. Cross-Cut & Edge Trim Saws
Working Principle: Boards first pass through the longitudinal edge saws for trimming both sides to standard width; then pass through the cross-cut saws for cutting to set length, finally obtaining regular rectangular boards.
Main Components: Frame, conveyor roller table, circular saw blades, power head, lifting adjustment device, sizing system.
9. Wide Belt Sander
Working Principle: The board is driven through the machine by an infeed conveyor belt. Multiple sanding heads (coarse, fine grit) inside the machine operate at high speed to sand the upper and lower surfaces of the board, removing the pre-cured layer and precisely controlling the final thickness to obtain a smooth and uniform surface.
Main Components: Machine base, infeed/outfeed device, sanding heads (contact roller, sanding belt, oscillation mechanism), lifting system, dust extraction unit.
 | I. Physical and Material Characteristics of Poplar Wood |
Poplar wood (typically referring to varieties like Italian poplar or fast-growing poplar), as a common fast-growing soft hardwood, possesses the following distinct characteristics:
1. Rapid Growth, Renewable Resource: Poplar is a typical fast-growing tree species with a short rotation period (often 5-8 years for industrial use), enabling rapid provision of wood resources and strong sustainability.
2. Soft Texture, Easy Processing: Poplar has relatively low density, uniform texture, and is comparatively soft with moderate fiber length. This results in lower energy consumption during cutting, peeling, shredding, and fiber separation (refining), and causes less wear on tools.
3. Good Fiber Quality: Poplar wood fibers have thin cell walls and large lumens, with moderate fiber length and aspect ratio. After refining, the fibers separate easily and maintain good morphology, exhibiting excellent interweaving properties, which lays the foundation for producing boards with a uniform structure.
4. Light Color: The heartwood and sapwood of poplar are not distinctly different; its color ranges from pale yellowish-white to light brown, being uniformly light. This makes it highly suitable for various surface decoration treatments (like veneering, printing, painting), ensuring good color consistency in the finished board.
5. Moderate Shrinkage, Acceptable Stability: Although its hardness is lower than that of hardwoods, its dimensional stability after drying and processing is relatively good.
| II. Major Global Origins of Poplar Wood |
Poplar trees are widely distributed globally, with major producing and plantation regions including:
1. China: The world's largest country in terms of poplar plantation area and poplar wood processing/utilization. Plantations are mainly concentrated in East China (Shandong, Jiangsu), North China (Hebei, Henan), Central China (Hubei, Hunan), as well as Southern Northeast China and Eastern Northwest China (e.g., Xinjiang). Clones like I-214 poplar are widely introduced and cultivated.
2. Europe: The European continent, particularly Italy (with a long history of poplar cultivation), France, Spain, and Central and Eastern European countries (e.g., Hungary, Romania), are traditional poplar producers.
3. North America: The United States and Canada possess abundant natural poplar resources (e.g., Eastern Cottonwood, Quaking Aspen) and also engage in cultivation.
4. Other Regions: Countries like Türkiye, Iran, Chile, and Argentina also have significant poplar plantations or natural forest distributions.
| III. Advantages of Poplar as a Raw Material for MDF Boards |
Using poplar as the primary raw material for MDF production offers multiple economic and technical advantages:
1. High Economic Efficiency: As a fast-growing wood, poplar has a large and stable supply, and its price is generally lower than hardwoods and traditional softwoods (like pine), effectively reducing MDF production costs.
2. Excellent Processability: Its soft texture makes it easy to chip and refine, reducing energy consumption and equipment wear during production, thereby improving efficiency.
3. Strong Compatibility: It is highly suitable for producing Medium Density Fiberboard (MDF) and even High Density Fiberboard (HDF), especially thin boards (e.g., 2-8mm) requiring high surface smoothness. Its light-colored fibers also facilitate the production of light or white boards.
4. Environmental Sustainability: Large-scale plantations ensure a sustainable supply of raw materials, aligning with modern industry demands for environmental protection and sustainable forest resource utilization. Using fast-growing poplar helps reduce logging pressure on natural forests.
5. High Adhesive Efficiency: Poplar fibers have good surface properties, offering excellent wettability and bonding performance with common adhesives like Urea-Formaldehyde (UF) and Melamine-Urea-Formaldehyde (MUF), helping reduce adhesive usage or improve bond strength.
| IV. Characteristics of MDF Boards Made from Poplar |
MDF boards produced using poplar as the main raw material exhibit the following end-product characteristics:
1. Uniform and Fine Internal Structure: Benefiting from the good separation and interweaving properties of poplar fibers, the resulting boards have a homogeneous internal structure, free from defects like knots and wormholes, with a dense cross-section.
2. Flat and Smooth Surface: The board surface is extremely flat and smooth. After sanding, the surface is fine, making it ideal for deep processing such as direct painting, PVC laminating, Melamine foil application, natural wood veneering, and printing/coating. It is an ideal substrate for high-end furniture and cabinet doors.
3. Good Flexibility: Compared to some hardwood MDF, poplar MDF may exhibit better flexibility and impact resistance at comparable densities, being less prone to brittle fracture.
4. Good Screw Holding Capacity: The uniform internal structure of the board provides good holding power for screws and hardware fittings.
5. Controllable Environmental Performance: Due to the pure and single raw material (compared to mixed waste wood), it is easier to control the formaldehyde emission levels of the finished board, making it easier to meet stringent environmental standards (such as CARB P2, EPA TSCA Title VI, E0/E1 levels).
2mm ultra-thin MDF board is an ideal choice for many industries and products that require extremely high precision in substrate thickness, thanks to its exceptional flatness, smoothness, flexibility, and ease of processing.
| I. Furniture Manufacturing & Interior Decoration |
This is the core application area for 2mm MDF, primarily used as a substrate or backing board, rather than for load-bearing structures.
1. Cabinet Door Core: Widely used as the core material for laminated doors (PVC foil wrapped doors) and wrapped doors. The 2mm thickness is perfect for adsorbing PVC films under heat or for wrapping processes, creating various styled doors that are lightweight and warp-resistant.
2. Furniture Backing Panels: Used as drawer bottoms, cabinet backs, and bed panels. Its thin yet sturdy nature ensures strength while maximizing space and material cost savings.
3. Decorative Components: Used for non-load-bearing decorative elements on furniture, such as trim, latticework, and inlay panels.
4. Custom Furniture: Used as a base board for applying veneers, melamine papers, laminates, or metal sheets to create tabletops, shelves, and wall panels.
| II. Construction & Interior Decoration |
1. Wall Decoration: Serves as a substrate for wall cladding and paneling. Its surface can be painted, wallpapered, or laminated for a smooth, flat wall finish.
2. Suspended Ceilings: Used to create lightweight ceiling tiles, especially for projects requiring complex shapes or patterns.
3. Partitions & Display Boards: Used as a base for interior temporary or semi-permanent partitions and display walls, facilitating pinning and pasting.
| III. Packaging & Cultural/Creative Industries |
1. High-End Gift Packaging: Used for the internal structures and external shells of premium gift boxes, jewelry cases, watch boxes, and wine boxes. The board is easily cut into specific shapes and its surface is suitable for fine printing, or lining with felt/leather, enhancing product quality.
2. Display Stands & Mounts: Used in retail displays and museums to create custom product display stands or artifact mounts, valued for its workability and lack of splinters compared to solid wood.
3. Model Making: An ideal substrate for architectural models and industrial design models, as it can be easily laser-cut and engraved with fine details.
4. Stationery & Signage: Used for making hardcover book covers, menu boards, signboards, and notice board backings.
| IV. Other Industrial Applications |
1. Loudspeakers: Can be used for constructing cabinets or rear covers for some small speakers or tweeters, where its uniform density contributes to sound stability.
2. DIY & Crafts: A popular material among DIY enthusiasts, artists, and crafters for making photo frame backs, creative canvases, and crafts.
Key Advantages Summary:
Ultra-Thin & Flexible: Can be bent to a certain radius, suitable for creating products with curved surfaces.
Extremely Smooth Surface: Provides a perfect canvas for various surface finishes, requiring no additional thick leveling.
Lightweight & Economical: Saves material, reduces the weight of finished products, and lowers logistics costs.
Easy to Process: Can be easily cut, engraved, drilled, laminated, and veneered.
Who We Are
Shandong MINGHUNG OSB&MDF Machinery Equipment Manufacturing Co.,Ltd. was founded in 1983, specializes in continuous press solutions for over 40 years.
MINGHUNG is a leading company in the industry of OSB&MDF making machine. With a strongfocus on producing high-quality machinery, we specialize in manufacturing thecomplete production line of Medium density fiberboard (MDF), High densityfiberboard (HDF),Particle board (PB), Oriented strand board (OSB) , Veneerable super strong particle board (LSB),Laminated board and veneer.
We are not just equipment suppliers but your partners:
Comprehensive Support: Provide full-process technical support from factory planning, equipment installation & commissioning, operator training, to production process optimization.
Quality Assurance: Equipment is manufactured using high-quality materials and components, ensuring sturdiness and durability.
After-Sales Service: Provide detailed User Operation & Maintenance Manuals. Respond quickly to customer needs and offer timely technical consultation and spare parts supply support.
Welcome to Contact Us for Inquiries!
If you are interested in this 2mm Flexible Poplar MDF Production Line or have any other wood-based panel equipment needs, please feel free to contact us for more detailed technical proposals and quotations.
Whatsapp: +8618769900191 +8615589105786 +8618954906501
Email: osbmdfmachinery@gmail.com
This production line is specifically designed to meet the growing market demand for thin, high-performance MDF. By processing poplar wood, whose material properties are well-suited for this purpose, the produced thin MDF boasts advantages like uniform texture, good strength, and a smooth surface, making it widely applicable in furniture manufacturing, decoration, packaging, and other fields. The line employs continuous roller press technology, overcoming the limitations of traditional multi-opening presses in producing boards thinner than 8mm, enabling efficient, continuous, and stable production of thin boards.
Main Technical Parameters
Parameter Item | Technical Indicators & Characteristics |
Product Type | Flexible Poplar Medium Density Fiberboard (MDF) |
Rated Daily Capacity | 150 cubic meters |
Producible Thickness | 2mm - 8mm(Focus on thin boards) |
Raw Material Compatibility | Poplar wood, twigs, and other small-diameter wood |
Production Line Features | Continuous roller pressing, automated control, high efficiency, energy saving |
Quality Control & Inspection | Online moisture detector (e.g., IMS-8B), metal detection device |
Automation & Intelligence | Central electrical control system, PC/PLC control, potential support for MES integration |
I. Raw Material Preprocessing & Fiber Preparation Section
This is the starting point of production, responsible for converting raw materials into qualified resinated fibers.
Process Flow: Chip Preparation → Washing & Screening → Fiber Separation → Resination → Fiber Drying
II. Forming & Pre-pressing Section
This section spreads the dry fibers into an even mat and performs initial compression to prepare it for hot pressing.
Process Flow: Fiber Forming → Pre-pressing → Mat Cutting
III. Hot Pressing & Curing Section (Core Section)
This is the core of the production line where the mat is cured and formed under high temperature and pressure, determining the final physical properties of the board.
Process Flow: Mat Conveying → Continuous Hot Pressing → Initial Cooling
IV. Post-processing & Finishing Section
This section performs precision processing on the pressed board to achieve the final dimensions and surface quality required by the market.
Process Flow: Cooling & Conditioning → Length Cutting → Edge Trimming → Surface Sanding → Sorting & Stacking
1. Drum Chipper
Working Principle: Utilizes flying knives mounted on a high-speed rotating disc to form a cutting pair with the bed knife, chipping raw wood, slab offcuts, and other wood raw materials into uniform-sized wood chips.
Main Components: Heavy-duty base, large knife disc, flying knives and bed knife, feed chute, discharge outlet, drive system.
2. Defibrator (Refiner)
Working Principle: Pre-treated wood chips are steamed and softened under high-pressure saturated steam and then fed into the gap between thenether millstone. Under high temperature and pressure, the chips are separated into wood fibers by the mechanical tearing action of the plate segments.
Main Components: Preheating digester, screw feeder,refiner housing with rotating and stationary plates, main shaft drive system, pressure application device.
3. Fiber Dryer
Working Principle: Uses high-temperature airflow as a drying medium to suspend and transport wet fibers within a pipeline or drying drum instantaneously, rapidly evaporating internal moisture to achieve the required moisture content.
Main Components: Drying pipe (or drum), heating device (e.g., hot gas generator), feeder, cyclone separator, fire prevention system.
4. Fiber Forming Machine
Working Principle: Uses mechanical throw-rollers or the principles of air pressure and vacuum to spread dried, resinated fibers evenly and symmetrically onto a continuously moving forming belt, creating a uniform mat with a specific width and initial thickness.
Main Components: Forming head (mechanical or pneumatic), storage bin, metering device, forming belt, drive unit.
5. Continuous Pre-press
Working Principle: Applies specific linear pressure to the fluffy fiber mat through one or more pairs of counter-rotating press rolls, performing initial compression to remove some air and increase mat density, giving it sufficient strength for transportation and subsequent processing.
Main Components: Frame, upper/lower press rolls, pressure adjustment device, conveyor belt.
6. Continuous Roller Press
Working Principle: The mat passes between a steel belt and a series of heated large rollers. The steel belt presses the mat against the heated rollers. By adjusting the roller temperature, pressure, and line speed, the mat is heated and pressed in a continuous dynamic process, completing the resin curing reaction to form a continuous board.
Main Components: Heated roller set, pressure steel belt, tensioning device, heating system, frame.
7. Board Cooling Turner
Working Principle: Separates the high-temperature boards after pressing one by one and conveys them to a multi-story cooling rack. Forced convection by fans allows the boards to cool fully in a natural state, eliminating internal thermal stress and stabilizing board dimensions and properties.
Main Components: Infeed roller table, board lifting device, turning mechanism, multi-story storage rack, air blast cooling system, discharge mechanism.
8. Cross-Cut & Edge Trim Saws
Working Principle: Boards first pass through the longitudinal edge saws for trimming both sides to standard width; then pass through the cross-cut saws for cutting to set length, finally obtaining regular rectangular boards.
Main Components: Frame, conveyor roller table, circular saw blades, power head, lifting adjustment device, sizing system.
9. Wide Belt Sander
Working Principle: The board is driven through the machine by an infeed conveyor belt. Multiple sanding heads (coarse, fine grit) inside the machine operate at high speed to sand the upper and lower surfaces of the board, removing the pre-cured layer and precisely controlling the final thickness to obtain a smooth and uniform surface.
Main Components: Machine base, infeed/outfeed device, sanding heads (contact roller, sanding belt, oscillation mechanism), lifting system, dust extraction unit.
| I. Physical and Material Characteristics of Poplar Wood |
Poplar wood (typically referring to varieties like Italian poplar or fast-growing poplar), as a common fast-growing soft hardwood, possesses the following distinct characteristics:
1. Rapid Growth, Renewable Resource: Poplar is a typical fast-growing tree species with a short rotation period (often 5-8 years for industrial use), enabling rapid provision of wood resources and strong sustainability.
2. Soft Texture, Easy Processing: Poplar has relatively low density, uniform texture, and is comparatively soft with moderate fiber length. This results in lower energy consumption during cutting, peeling, shredding, and fiber separation (refining), and causes less wear on tools.
3. Good Fiber Quality: Poplar wood fibers have thin cell walls and large lumens, with moderate fiber length and aspect ratio. After refining, the fibers separate easily and maintain good morphology, exhibiting excellent interweaving properties, which lays the foundation for producing boards with a uniform structure.
4. Light Color: The heartwood and sapwood of poplar are not distinctly different; its color ranges from pale yellowish-white to light brown, being uniformly light. This makes it highly suitable for various surface decoration treatments (like veneering, printing, painting), ensuring good color consistency in the finished board.
5. Moderate Shrinkage, Acceptable Stability: Although its hardness is lower than that of hardwoods, its dimensional stability after drying and processing is relatively good.
| II. Major Global Origins of Poplar Wood |
Poplar trees are widely distributed globally, with major producing and plantation regions including:
1. China: The world's largest country in terms of poplar plantation area and poplar wood processing/utilization. Plantations are mainly concentrated in East China (Shandong, Jiangsu), North China (Hebei, Henan), Central China (Hubei, Hunan), as well as Southern Northeast China and Eastern Northwest China (e.g., Xinjiang). Clones like I-214 poplar are widely introduced and cultivated.
2. Europe: The European continent, particularly Italy (with a long history of poplar cultivation), France, Spain, and Central and Eastern European countries (e.g., Hungary, Romania), are traditional poplar producers.
3. North America: The United States and Canada possess abundant natural poplar resources (e.g., Eastern Cottonwood, Quaking Aspen) and also engage in cultivation.
4. Other Regions: Countries like Türkiye, Iran, Chile, and Argentina also have significant poplar plantations or natural forest distributions.
| III. Advantages of Poplar as a Raw Material for MDF Boards |
Using poplar as the primary raw material for MDF production offers multiple economic and technical advantages:
1. High Economic Efficiency: As a fast-growing wood, poplar has a large and stable supply, and its price is generally lower than hardwoods and traditional softwoods (like pine), effectively reducing MDF production costs.
2. Excellent Processability: Its soft texture makes it easy to chip and refine, reducing energy consumption and equipment wear during production, thereby improving efficiency.
3. Strong Compatibility: It is highly suitable for producing Medium Density Fiberboard (MDF) and even High Density Fiberboard (HDF), especially thin boards (e.g., 2-8mm) requiring high surface smoothness. Its light-colored fibers also facilitate the production of light or white boards.
4. Environmental Sustainability: Large-scale plantations ensure a sustainable supply of raw materials, aligning with modern industry demands for environmental protection and sustainable forest resource utilization. Using fast-growing poplar helps reduce logging pressure on natural forests.
5. High Adhesive Efficiency: Poplar fibers have good surface properties, offering excellent wettability and bonding performance with common adhesives like Urea-Formaldehyde (UF) and Melamine-Urea-Formaldehyde (MUF), helping reduce adhesive usage or improve bond strength.
| IV. Characteristics of MDF Boards Made from Poplar |
MDF boards produced using poplar as the main raw material exhibit the following end-product characteristics:
1. Uniform and Fine Internal Structure: Benefiting from the good separation and interweaving properties of poplar fibers, the resulting boards have a homogeneous internal structure, free from defects like knots and wormholes, with a dense cross-section.
2. Flat and Smooth Surface: The board surface is extremely flat and smooth. After sanding, the surface is fine, making it ideal for deep processing such as direct painting, PVC laminating, Melamine foil application, natural wood veneering, and printing/coating. It is an ideal substrate for high-end furniture and cabinet doors.
3. Good Flexibility: Compared to some hardwood MDF, poplar MDF may exhibit better flexibility and impact resistance at comparable densities, being less prone to brittle fracture.
4. Good Screw Holding Capacity: The uniform internal structure of the board provides good holding power for screws and hardware fittings.
5. Controllable Environmental Performance: Due to the pure and single raw material (compared to mixed waste wood), it is easier to control the formaldehyde emission levels of the finished board, making it easier to meet stringent environmental standards (such as CARB P2, EPA TSCA Title VI, E0/E1 levels).
2mm ultra-thin MDF board is an ideal choice for many industries and products that require extremely high precision in substrate thickness, thanks to its exceptional flatness, smoothness, flexibility, and ease of processing.
| I. Furniture Manufacturing & Interior Decoration |
This is the core application area for 2mm MDF, primarily used as a substrate or backing board, rather than for load-bearing structures.
1. Cabinet Door Core: Widely used as the core material for laminated doors (PVC foil wrapped doors) and wrapped doors. The 2mm thickness is perfect for adsorbing PVC films under heat or for wrapping processes, creating various styled doors that are lightweight and warp-resistant.
2. Furniture Backing Panels: Used as drawer bottoms, cabinet backs, and bed panels. Its thin yet sturdy nature ensures strength while maximizing space and material cost savings.
3. Decorative Components: Used for non-load-bearing decorative elements on furniture, such as trim, latticework, and inlay panels.
4. Custom Furniture: Used as a base board for applying veneers, melamine papers, laminates, or metal sheets to create tabletops, shelves, and wall panels.
| II. Construction & Interior Decoration |
1. Wall Decoration: Serves as a substrate for wall cladding and paneling. Its surface can be painted, wallpapered, or laminated for a smooth, flat wall finish.
2. Suspended Ceilings: Used to create lightweight ceiling tiles, especially for projects requiring complex shapes or patterns.
3. Partitions & Display Boards: Used as a base for interior temporary or semi-permanent partitions and display walls, facilitating pinning and pasting.
| III. Packaging & Cultural/Creative Industries |
1. High-End Gift Packaging: Used for the internal structures and external shells of premium gift boxes, jewelry cases, watch boxes, and wine boxes. The board is easily cut into specific shapes and its surface is suitable for fine printing, or lining with felt/leather, enhancing product quality.
2. Display Stands & Mounts: Used in retail displays and museums to create custom product display stands or artifact mounts, valued for its workability and lack of splinters compared to solid wood.
3. Model Making: An ideal substrate for architectural models and industrial design models, as it can be easily laser-cut and engraved with fine details.
4. Stationery & Signage: Used for making hardcover book covers, menu boards, signboards, and notice board backings.
| IV. Other Industrial Applications |
1. Loudspeakers: Can be used for constructing cabinets or rear covers for some small speakers or tweeters, where its uniform density contributes to sound stability.
2. DIY & Crafts: A popular material among DIY enthusiasts, artists, and crafters for making photo frame backs, creative canvases, and crafts.
Key Advantages Summary:
Ultra-Thin & Flexible: Can be bent to a certain radius, suitable for creating products with curved surfaces.
Extremely Smooth Surface: Provides a perfect canvas for various surface finishes, requiring no additional thick leveling.
Lightweight & Economical: Saves material, reduces the weight of finished products, and lowers logistics costs.
Easy to Process: Can be easily cut, engraved, drilled, laminated, and veneered.
Who We Are
Shandong MINGHUNG OSB&MDF Machinery Equipment Manufacturing Co.,Ltd. was founded in 1983, specializes in continuous press solutions for over 40 years.
MINGHUNG is a leading company in the industry of OSB&MDF making machine. With a strongfocus on producing high-quality machinery, we specialize in manufacturing thecomplete production line of Medium density fiberboard (MDF), High densityfiberboard (HDF),Particle board (PB), Oriented strand board (OSB) , Veneerable super strong particle board (LSB),Laminated board and veneer.
We are not just equipment suppliers but your partners:
Comprehensive Support: Provide full-process technical support from factory planning, equipment installation & commissioning, operator training, to production process optimization.
Quality Assurance: Equipment is manufactured using high-quality materials and components, ensuring sturdiness and durability.
After-Sales Service: Provide detailed User Operation & Maintenance Manuals. Respond quickly to customer needs and offer timely technical consultation and spare parts supply support.
Welcome to Contact Us for Inquiries!
If you are interested in this 2mm Flexible Poplar MDF Production Line or have any other wood-based panel equipment needs, please feel free to contact us for more detailed technical proposals and quotations.
Whatsapp: +8618769900191 +8615589105786 +8618954906501
Email: osbmdfmachinery@gmail.com
