Facilities

Laser Cutting: 

Laser cutting MDF board is a popular method for creating precise and intricate shapes and designs in the material. MDF (medium-density fiberboard) is a composite wood product that is made from wood fibers and resin. It is commonly used in furniture, cabinetry, and construction due to its strength, durability, and affordability.

Laser cutting MDF board is a process that uses a laser beam to cut through the material, leaving a clean and precise edge. The laser beam is guided by a computer-controlled system that follows a digital design file, allowing for high levels of accuracy and detail. The laser can also engrave the surface of the MDF board, creating custom designs and patterns.

There are many benefits to using laser cutting for MDF board, including:

Precision: Laser cutting provides a high level of precision and accuracy, allowing for complex and intricate designs.

Efficiency: Laser cutting is a fast and efficient process, making it ideal for large-scale production runs.

Versatility: Laser cutting can be used to create a wide range of shapes and designs, from simple to complex.

Clean cuts: Laser cutting produces clean and precise edges, reducing the need for sanding or finishing.

Overall, laser cutting is a great option for MDF board cutting facility, as it allows for efficient and precise production of a wide range of shapes and designs.

Engraving:

Engraving customized naming is a service that involves using a laser or other cutting tool to create custom text or designs on a surface. This service is commonly used for personalizing items such as trophies, awards, jewelry, and promotional products.

Laser engraving is a popular method for customizing items because it offers a high level of precision and detail. The laser can be programmed to create text, logos, or designs of almost any size and shape, and the depth of the engraving can be adjusted to create a variety of effects.

Some of the benefits of engraving customized naming include:

Personalization: Engraving allows for personalized text or designs to be added to an item, making it unique and special.

Durability: Engraving is a permanent process that will not wear off or fade over time, ensuring that the customization remains intact.

Versatility: Engraving can be done on a wide variety of materials, including metals, plastics, glass, and wood.

Professional appearance: Engraving creates a clean and professional look that can add value to the item being customized.

Overall, engraving customized naming is a great service for adding a personal touch to items and making them unique and memorable. It is a durable and versatile method that can create a professional appearance, and is suitable for a wide range of applications.

Pasting:

Pasting is a process used in the packaging industry for attaching or bonding different materials together. The process involves applying an adhesive or glue to one or both surfaces that need to be joined, and then pressing them together to create a strong bond.

In the packaging industry, pasting is used for a variety of applications, including:

Box making: Pasting is used to assemble cardboard boxes by bonding the flaps and panels together.

Labeling: Pasting is used to attach labels to packaging materials, such as bottles, boxes, and bags.

Lamination: Pasting is used to laminate different materials together to create a single, strong layer, such as laminating paper to plastic or foil.

Sealing: Pasting is used to seal packaging materials, such as envelopes and bags, to keep the contents inside.

Book binding: Pasting is used to bind pages together in books, magazines, and other publications.

There are different types of pasting techniques used in the packaging industry, including hot melt pasting, cold pasting, and pressure-sensitive pasting. The choice of pasting technique depends on the materials being bonded together, the desired strength of the bond, and the application requirements.

Overall, pasting is an important process in the packaging industry that allows for the creation of strong, durable, and functional packaging solutions for a wide range of products.

CNC:

CNC cutting is a computer-controlled cutting process that uses a router or other cutting tool to precisely cut or engrave materials such as wood, plastic, metal, and foam. In the context of engraving and educational toys, CNC cutting is used to create custom designs and shapes in materials that can be used in various educational applications.

CNC engraving involves using a rotating tool or laser to etch designs or lettering into the surface of a material. This process can create intricate designs with a high level of precision and accuracy. CNC cutting is also used to create custom shapes and designs for educational toys, allowing for a range of shapes and sizes that can be used for educational purposes.

Some benefits of using CNC cutting for engraving and educational toys include:

Precision: CNC cutting provides a high level of precision and accuracy, allowing for complex and intricate designs.

Customization: CNC cutting allows for custom designs and shapes to be created, making it ideal for engraving and educational toy applications.

Efficiency: CNC cutting is a fast and efficient process, making it ideal for large-scale production runs.

Versatility: CNC cutting can be used to create a wide range of shapes and designs, from simple to complex.

Overall, CNC cutting is an excellent option for creating custom designs and shapes in materials for engraving and educational toy applications. The high level of precision and efficiency make it an ideal choice for large-scale production runs, while the ability to create custom designs and shapes allows for a wide range of applications.

Printing:

Printing is a key process in the packing industry that involves applying text, images, or other designs to packaging materials. The process involves using printing equipment to transfer ink onto a substrate, such as paper, cardboard, or plastic.

Printing for the packing industry can involve up to six colors, which allows for a range of designs and effects. The six-color printing process is also known as hexachrome printing and typically uses cyan, magenta, yellow, black, orange, and green inks to create a wide range of colors.

Some benefits of using up to six-color printing in the packing industry include:

Improved color accuracy: Six-color printing allows for a greater range of colors and more accurate color reproduction.

Better image quality: With more colors available, the printing process can create higher-quality images with more depth and vibrancy.

Increased versatility: Six-color printing allows for a wider range of designs and effects to be created, including gradients, shading, and metallic or fluorescent colors.

Increased brand recognition: High-quality printing can help products stand out on store shelves and increase brand recognition.

Overall, up to six-color printing is an important process in the packing industry that allows for the creation of high-quality, visually appealing packaging materials that can help products stand out and increase brand recognition.

Screen Printing:

Screens are an essential component of the card and packaging industry as they are used to create high-quality images and designs on packaging materials, such as paper, cardboard, and plastic. Screens are a mesh or a sheet of fabric that is used to transfer ink or other materials onto the packaging material.

In the card and packaging industry, screens are typically used in a process called screen printing, which involves using a screen to transfer ink onto the packaging material. This process allows for high-quality images and designs to be created on the packaging material, and it is commonly used to create logos, product information, and other visual elements on packaging.

The screen printing process involves creating a stencil of the desired design, which is then placed on top of the screen. Ink is then applied to the screen and pushed through the mesh or fabric onto the packaging material below, transferring the design onto the material.

Some benefits of using screens in the card and packaging industry include:

High-quality images and designs: Screen printing allows for high-quality, detailed images and designs to be created on packaging materials.

Versatility: Screens can be used on a variety of packaging materials, including paper, cardboard, and plastic.

Durability: Screen printing ink is durable and can withstand wear and tear, making it ideal for packaging that will be shipped or handled frequently.

Customization: Screen printing allows for the customization of packaging materials, making it easy to create unique designs and branding.

Overall, screens are an essential component of the card and packaging industry, allowing for high-quality, durable, and customizable designs to be created on packaging materials. Screen printing is a versatile and effective process that is commonly used in the industry to create visually appealing and branded packaging.

Metal Marking:

Metal marking is a process of creating permanent marks or designs on metal packaging materials such as cans, lids, and other metal containers. Metal marking is an essential process in the packaging industry, as it allows for branding, identification, and information to be printed on metal packaging materials.

There are several methods for metal marking in the packaging industry, including:

Laser marking: Laser marking is a popular method for marking metal packaging materials, as it creates precise and permanent marks without the need for inks or other consumables. Laser marking uses a laser beam to heat and vaporize the metal surface, creating a high-contrast, durable mark.

Etching: Etching is a chemical process that creates an indelible mark on the metal surface. The metal surface is first coated with a protective layer, and the desired design is then etched onto the surface using an acid or other corrosive substance. The protective layer is then removed, leaving the permanent mark.

Inkjet printing: Inkjet printing is a non-contact method for marking metal surfaces with ink. The ink is jetted onto the surface using high-precision nozzles, creating high-quality, durable marks.

Mechanical marking: Mechanical marking involves stamping or engraving the metal surface to create permanent marks. Mechanical marking is often used to create serial numbers, product codes, and other identification marks on metal packaging materials.

Metal marking is an important process in the packaging industry, as it allows for branding, identification, and information to be printed on metal packaging materials. The method chosen for metal marking depends on the material, the desired mark, and the production volume.