Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
News
Home > News
Plastic materials commonly used in vacuum forming medical equipment shells
2023 / 09 / 17
Plastic materials commonly used in the processing of medical equipment shells Medical equipment casings are mostly made of vacuum forming and are mostly made of ABS material, with many requirements for materials, including: 1. It should have good heating elongation, high height to diameter ratio (elongation ratio), and good elongation; 2. There are also requirements for tensile strength, impact strength, and pinhole resistance; 3. Products with composite requirements must have good thermal adhesive strength; 4. Good transparency and glossiness, which is in line with the aesthetic of medical equipment 5. Products used for food and pharmaceutical packaging should have non-toxic, odorless, or low odor requirements, even at higher temperatures; 7. Products with color printing requirements can undergo corona treatment, etc. Thermoforming is mainly used to produce thin shell products, with different types and sizes of products. The principle of selecting materials for thermoforming can only use plastic varieties that can be subjected to thermoforming processing. Under heating conditions, the elastic modulus and load-bearing capacity of the material rapidly decrease. However, in practical applications, determining whether a material is suitable for hot forming processing still requires specific consideration from the material's thermal properties, mechanical properties, and aggregated structure. In order to determine the material requirements, it is still necessary to conduct relevant experiments for operation.
Application and production process of vacuum forming blister packaging
2023 / 09 / 16
Vacuum forming bliaster packaging products use a plastic processing process where flat plastic hard sheets are heated and softened, and then vacuum adsorbed on the surface of the mold. Vacuum formed products are widely used in the plastic packaging industry. A. The main advantages of vacuum forming blister packaging are: 1. saving raw and auxiliary materials, light weight, convenient transportation, and meeting the requirements of environmentally friendly and green packaging; 2. Able to Packaging any irregular products without the need for additional cushioning materials; 3. The packaged product is transparent and visible, has a beautiful appearance, is easy to sell, and is suitable for machinery Automated packaging facilitates modern management, saves manpower, and improves efficiency. B. Blister packaging products mainly include: bubble shells, trays, blister boxes, and synonyms include: vacuum covers, bubble covers, etc. C. The blister packaging equipment mainly includes: blister packaging machines, blister forming machines, punching machines, sealing machines, high-frequency machines, and folding machines. D. The packaging products formed by packaging can be divided into: card insertion, card suction, double bubble shell, half bubble shell, half fold bubble shell, three fold bubble shell, etc. E. The production raw materials for blister packaging mainly include PVC, PS, PP, PET, PETG, and environmentally friendly materials such as flocking, anti-static, and conductive.
The difference between vacuum forming and thermoforming?
2023 / 09 / 13
Thermoforming and vacuum forming are both methods of processing plastic sheets to create 3D shapes. The main difference between these two methods lies in the process and the final product. 1. Process: In thermoforming, the plastic sheet is heated until it becomes pliable, then it is formed to the shape of the mold by using pressure or vacuum. In vacuum forming, after the plastic sheet is heated, a vacuum is used to suck the sheet onto the mold, forming the shape. 2. Precision: Thermoforming generally allows for more precision and detailed shapes compared to vacuum forming. This is because in thermoforming, the pressure can be controlled more accurately, allowing for more precise shapes and details. 3. Cost: Vacuum forming is generally cheaper than thermoforming. This is because vacuum forming uses less expensive equipment and can produce parts faster. 4. Material Thickness: Thermoforming can handle thicker materials compared to vacuum forming. This makes thermoforming more suitable for heavy-duty applications. 5. Final Product: Thermoformed products are generally more robust and have a higher quality finish than vacuum formed products. This is because thermoforming allows for better control over the material, resulting in a more consistent and higher quality product. 6. Applications: Thermoforming is often used for producing larger and more complex parts, such as car bumpers, refrigerator liners, and plastic pallets. Vacuum forming, on the other hand, is often used for simpler and smaller parts, such as packaging, trays, and display stands.
The difference of blowing process and vacuum forming process
2023 / 09 / 11
The blowing process and vacuum forming process are both methods used to shape plastic materials, but they differ in several ways: 1. Principle: The blowing process involves inflating a heated plastic sheet or parison with air pressure to conform to the shape of a mold cavity, while the vacuum forming process uses vacuum pressure to draw a heated plastic sheet onto a mold surface. 2. Equipment: The blowing process typically requires a blow molding machine, which consists of a blow mold and a blow pin, while the vacuum forming process requires a vacuum forming machine, which includes a mold and a vacuum system. 3. Material Thickness: The blowing process is suitable for producing hollow plastic products with relatively uniform wall thickness, such as bottles and containers, while the vacuum forming process is more suitable for producing flat or shallow plastic parts with varying thicknesses, such as trays, packaging, and automotive interior components. 4. Complexity: The blowing process is generally used for producing more complex shapes with intricate details, as it allows for the creation of internal features like handles and threads. On the other hand, the vacuum forming process is better suited for simpler shapes with fewer intricate details. 5. Production Volume: The blowing process is often used for high-volume production due to its fast cycle times and ability to produce multiple parts simultaneously in a single mold. In contrast, the vacuum forming process is more commonly used for low to medium volume production. 6. Cost: The blowing process typically requires more expensive molds and machinery, making it more costly to set
Why only extruding plastic sheet can be used for vacuum forming?
2023 / 09 / 09
Vacuum forming is a manufacturing process that involves heating a plastic sheet and then stretching it over a mold using a vacuum to create a desired shape. Extruding plastic sheet is commonly used for vacuum forming due to several reasons: 1. Consistency: Extruded plastic sheets have a uniform thickness and consistent properties throughout the sheet. This ensures that the final product will have consistent dimensions and quality. 2. Availability of materials: Extruded plastic sheets are readily available in various materials such as ABS, polystyrene, acrylic, and PVC. These materials offer different properties like strength, transparency, and heat resistance, allowing for a wide range of applications. 3. Cost-effectiveness: Extruding plastic sheets is a cost-effective method compared to other manufacturing processes. The extrusion process allows for mass production of plastic sheets, reducing the overall cost per unit. 4. Ease of processing: Extruded plastic sheets are easy to handle and process. They can be easily heated and stretched over molds, making them suitable for vacuum forming. 5. Versatility: Extruded plastic sheets can be customized to meet specific requirements. They can be produced in different colors, textures, and finishes, making them suitable for various industries and applications. While extruded plastic sheets are commonly used for vacuum forming, it is worth noting that other types of plastic sheets, such as cast sheets, may also be used depending on the specific requirements of the application.
The different size of vacuum forming machine
2023 / 09 / 08
Vacuum forming machines come in various sizes to accommodate different production needs. The size of a vacuum forming machine is typically determined by the dimensions of the mold or tooling it can accommodate. Here are some common sizes of vacuum forming machines: 1. Small tabletop machines: These machines are compact and portable, typically used for small-scale production or prototyping. They can have a forming area of around 12 inches by 12 inches or smaller. 2. Medium-sized machines: These machines are larger than tabletop models and can handle medium-sized molds. They usually have a forming area ranging from 24 inches by 24 inches to 48 inches by 48 inches. They are commonly used for small to medium-scale production. 3. Large industrial machines: These machines are designed for high-volume production and can handle large molds. They can have a forming area ranging from 48 inches by 48 inches to several feet in width and length. These machines are commonly used in industries such as automotive, aerospace, and packaging. 4. Custom-sized machines: Some manufacturers offer custom-sized vacuum forming machines to meet specific production requirements. These machines can be tailored to fit unique mold sizes or production needs. It's important to note that the size of the vacuum forming machine also affects its overall footprint and power requirements. Larger machines may require more space and higher power consumption.
Why vacuum forming only suitable for hollow design?
2023 / 09 / 07
Vacuum forming is a manufacturing process in which a heated sheet of plastic is stretched and pressed onto a mold using a vacuum. This process is particularly suitable for creating hollow designs due to the following reasons: 1. Simplicity of design: Vacuum forming is most effective for simple and relatively shallow designs. Complex or intricate designs may not be easily achievable through this process. 2. Material limitations: Vacuum forming typically uses thin sheets of thermoplastic materials, such as ABS or polystyrene. These materials are better suited for creating hollow designs rather than solid structures. 3. Uniform wall thickness: Vacuum forming tends to produce parts with consistent wall thickness. This is more achievable for hollow designs as the material can be evenly distributed around the mold. 4. Ease of extraction: Hollow designs allow for easier removal of the formed part from the mold. Solid designs may require more complex and time-consuming extraction methods. 5. Cost-effectiveness: Vacuum forming is a relatively inexpensive manufacturing process compared to other methods like injection molding. Hollow designs often require less material, reducing production costs. While vacuum forming is primarily used for hollow designs, it can also be adapted for certain solid designs with modifications such as adding structural reinforcements or combining multiple vacuum-formed parts. However, for most applications, vacuum forming is best suited for creating hollow designs due to its inherent limitations and advantages.
The common vacuum forming products in our daily life
2023 / 09 / 06
1. Food packaging trays: Vacuum forming is commonly used to create trays and containers for packaging food items such as fruits, vegetables, meat, and bakery products. 2. Blister packaging: Vacuum-formed blister packs are widely used in the pharmaceutical and retail industries to securely package and display small items like pills, capsules, toys, and electronics. 3. Disposable cups and containers: Many disposable cups, bowls, plates, and food containers are made using vacuum forming. These products are commonly used in fast food restaurants, cafeterias, and takeaway establishments. 4. Automotive interior components: Vacuum forming is used to create various interior components for automobiles, such as door panels, dashboard covers, and trim pieces. 5. Protective packaging inserts: Vacuum-formed inserts are often used to provide cushioning and protection for delicate items during shipping and transportation. These inserts are commonly found in electronic devices, medical equipment, and fragile goods. 6. Point-of-purchase displays: Vacuum-formed displays are used in retail stores to showcase products and attract customers' attention. They can be found in various shapes and sizes, such as countertop displays, shelf displays, and hanging displays. 7. Medical equipment components: Vacuum forming is used to create parts and components for medical devices and equipment, including trays for surgical instruments, protective covers, and housing for electronic devices. 8. Toys and game components: Many plastic toys, puzzles, game pieces, and figurines are manufactured using vacuum forming.
The advantages and disadvantages by vacuum forming process
2023 / 09 / 05
Advantages of vacuum forming process: 1. Cost-effective: Vacuum forming is a relatively low-cost manufacturing process compared to other methods such as injection molding or blow molding. It requires less expensive equipment and tooling, making it a cost-effective option for producing plastic parts. 2. Versatility: Vacuum forming can be used to produce a wide range of shapes and sizes, from simple to complex geometries. It allows for the production of parts with varying thicknesses and can accommodate undercuts and draft angles. 3. Quick turnaround: Vacuum forming offers a faster production turnaround compared to other processes. The setup time is relatively quick, and once the mold is ready, parts can be produced at a rapid rate. This makes it suitable for prototyping and small to medium production runs. 4. Material options: Vacuum forming can be performed using a variety of thermoplastic materials, including ABS, PVC, polystyrene, and acrylics. This allows for flexibility in material selection based on the specific requirements of the part. Disadvantages of vacuum forming process: 1. Limited material properties: While vacuum forming offers a wide range of material options, the properties of the formed parts may be limited compared to other manufacturing processes. For example, the parts may have reduced strength, impact resistance, or heat resistance compared to injection molded parts. 2. Surface finish limitations: Vacuum formed parts may have visible mold lines or imperfections on the surface due to the nature of the process. Achieving a high-quality, smooth surface finish ca
How to choose the function of vacuum forming plastic?
2023 / 09 / 04
When choosing the function of vacuum forming plastic, there are several factors to consider. Here are some steps to guide you in the decision-making process: 1. Identify the purpose: Determine the specific function or application of the vacuum-formed plastic. Is it intended for packaging, prototyping, signage, automotive parts, or something else? Clarifying the purpose will help narrow down the options. 2. Consider the material: Vacuum forming can be done with various types of plastic materials, such as ABS, polystyrene, acrylic, PVC, and more. Each material has different properties, including strength, flexibility, transparency, heat resistance, and chemical resistance. Choose a material that suits the specific requirements of your application. 3. Evaluate the design requirements: Consider the shape, size, and complexity of the desired product. Vacuum forming is suitable for producing both simple and complex shapes, but certain designs may require additional features like undercuts, texture, or precise details. Ensure that the chosen function of vacuum forming plastic aligns with the design needs. 4. Assess the cost-effectiveness: Evaluate the cost of the vacuum forming process in relation to your budget and expected production volume. Vacuum forming is generally a cost-effective manufacturing method for low to medium volume production, but it may not be suitable for high-volume or highly customized products. Consider the cost of tooling, material, labor, and any additional finishing processes required. 5. Test and validate: Before finalizing the function of vacuum forming plastic, it is advisable to create prototypes or conduct small-scale testing to ensure that the chosen materi
The vacuum forming VS injection mould
2023 / 09 / 03
Vacuum forming and injection molding are both plastic manufacturing processes used to create a variety of products. However, they differ in terms of process, cost, and application. Vacuum forming, also known as thermoforming, is a process where a sheet of plastic is heated until it becomes pliable. It is then stretched over a mold and vacuum pressure is applied to create the desired shape. This process is commonly used for creating packaging materials, trays, and disposable cups. Vacuum forming is a relatively simple and cost-effective process, making it suitable for low-volume production runs. Injection molding, on the other hand, involves injecting molten plastic into a mold cavity under high pressure. The plastic then cools and solidifies, resulting in a precise and detailed finished product. Injection molding is widely used for manufacturing complex and high-volume products like automotive parts, electronic enclosures, and consumer goods. While injection molding requires more initial investment in tooling and equipment, it offers greater design flexibility and higher production efficiency. In terms of cost, vacuum forming typically has lower tooling costs compared to injection molding. This is because vacuum forming uses less complex molds, which can be made from inexpensive materials like wood or epoxy. Injection molding, on the other hand, requires the fabrication of more expensive steel or aluminum molds. However, the per-unit cost of injection molded products is often lower due to the higher production efficiency and faster cycle times. The choice between vacuum forming and injection molding depends on the specific requirements of the product. Vacuum forming is suitable for low to medium volume production runs, where cost ef
What kind of vacuum forming mold materials?
2023 / 09 / 02
The vacuum forming mold material is typically made from a variety of materials, including wood, aluminum, steel, or composite materials. The choice of material depends on factors such as the complexity of the part being formed, the desired finish, and the number of parts to be produced. Wood molds are commonly used for low-volume production or prototyping due to their cost-effectiveness and ease of machining. However, they may require additional sealing or coating to prevent moisture absorption. Aluminum molds are durable, lightweight, and offer good heat transfer properties. They are suitable for medium-volume production and can provide a high level of detail and surface finish. Steel molds are the most durable and can withstand high production volumes. They are typically used for large-scale manufacturing and can provide excellent precision and surface finish. However, they are more expensive and time-consuming to produce. Composite molds, made from materials such as fiberglass or carbon fiber, offer a balance between cost, durability, and ease of machining. They are commonly used for medium to high-volume production. The vacuum forming mold is used in the vacuum forming process, where a heated sheet of thermoplastic material is placed over the mold. The vacuum is then applied, causing the material to conform to the shape of the mold. Once cooled, the formed part is removed from the mold, trimmed, and finished as required. Vacuum forming is commonly used in industries such as packaging, automotive, aerospace, and consumer goods for producing items like trays, containers, automotive interior components, and product casings.
What is R angle on vacuum forming design?
2023 / 09 / 01
The R angle in vacuum forming design refers to the radius of the corners or edges of a part or mold. It is the curved portion where the flat surface transitions into a rounded shape. The R angle is important in vacuum forming as it helps prevent stress concentration and material thinning in the corners during the forming process. It also aids in the release of the formed part from the mold. The specific value of the R angle depends on the material being formed, the thickness of the sheet, and the desired aesthetics and functionality of the final product.
How to get the vacuum forming price from us?
2023 / 08 / 31
To get the vacuum forming price from us, you can follow these steps: 1. Visit our website or contact us through phone or email to inquire about the vacuum forming price. 2. Provide us with the details of your project, including the size and shape of the desired product, the material you want to use, and the quantity you require. 3. If possible, provide us with a 3D CAD file or a detailed drawing of the product for accurate pricing. 4. Our team will review your requirements and provide you with a quote based on the complexity of the design, material costs, tooling requirements, and production volume. 5. We may also consider additional factors such as finishing, assembly, and shipping costs if applicable. 6. Once you receive the quote, you can review and discuss any further details or specifications. 7. If you agree with the price, you can proceed with the order by providing necessary payment and confirming the production timeline. Please note that the pricing may vary depending on the specific requirements of your project. It is always recommended to provide as much detail as possible to ensure an accurate quote.
How to control the temperature during vacuum forming process?
2023 / 08 / 30
Controlling the temperature during vacuum forming is crucial to achieve the desired results. Here are some steps to help you control the temperature effectively: 1. Preheat the material: Before starting the vacuum forming process, preheat the plastic material you are using. This will make it more pliable and easier to form. The preheating temperature will depend on the type of plastic being used. Follow the manufacturer's recommendations or conduct some trial and error to determine the optimal preheating temperature. 2. Use a temperature-controlled heating element: Install a temperature-controlled heating element in your vacuum forming machine. This will allow you to set and maintain the desired temperature throughout the forming process. The heating element should be evenly distributed to ensure consistent heating across the entire material. 3. Monitor the temperature: Use a temperature gauge or a digital thermometer to monitor the temperature inside the vacuum forming machine. This will help you ensure that the temperature remains within the desired range. Adjust the temperature as needed to maintain consistency. 4. Adjust the heating element: If you notice any hot or cold spots on the material during the forming process, adjust the heating element accordingly. Move it closer or further away from the material to achieve even heating. This will help prevent uneven stretching or warping of the material. 5. Control the cooling process: After the vacuum forming is complete, it is essential to cool the formed part gradually to avoid deformation. Use fans or cooling systems to control the cooling process. Gradual cooling will help the material retain its shape and prevent any warping o
How to choose vacuum formiung plastic?
2023 / 08 / 29
When choosing vacuum forming plastic, there are several factors to consider: 1. Material: Vacuum forming plastic is available in various materials, including ABS, PVC, polycarbonate, acrylic, and polypropylene. Each material has different properties, such as durability, flexibility, transparency, and heat resistance. Consider the specific requirements of your project to determine the most suitable material. 2. Thickness: The thickness of the plastic sheet affects the strength and rigidity of the final product. Thicker sheets are generally stronger but may require more heating time during the vacuum forming process. Thinner sheets are more flexible but may be less durable. 3. Transparency: If transparency is important for your project, consider materials like acrylic or polycarbonate, which offer high clarity. Other materials like ABS or PVC may have limited transparency but offer other advantages such as impact resistance or cost-effectiveness. 4. Heat resistance: Depending on the intended application, you may need vacuum forming plastic that can withstand high temperatures. Polycarbonate and ABS are known for their excellent heat resistance, while PVC has a lower heat resistance. 5. Cost: Consider your budget and the cost-effectiveness of the material. Some materials may be more expensive upfront but offer better durability or other advantages that can save money in the long run. 6. Availability: Ensure that the chosen plastic material is readily available from suppliers or manufacturers. Some specialized materials may have limited availability or longer lead times. 7. Compatibi
2023 / 08 / 28
Vacuum forming is a manufacturing process that involves heating a sheet of plastic until it becomes pliable, then stretching it over a mold and using a vacuum to remove the air between the sheet and the mold, thus forming the desired shape. The origins of vacuum forming can be traced back to ancient times when people used heat and pressure to shape materials such as metal and glass. However, the modern vacuum forming process as we know it today began to develop in the early 20th century. In the 1930s, a German engineer named Otto Bayer developed the first vacuum forming machine. This machine utilized a vacuum pump to create negative pressure, which allowed for the shaping of plastic sheets. Bayer's invention revolutionized the manufacturing industry by providing a cost-effective and efficient method for producing plastic products. During World War II, vacuum forming gained significant popularity as it was used to produce various components for military equipment. The process was particularly useful for creating lightweight and durable parts, which were essential for the war effort. After the war, vacuum forming continued to evolve and improve. In the 1950s, advancements in plastic technology allowed for the production of more complex shapes and designs. This led to the widespread adoption of vacuum forming in industries such as automotive, aerospace, and consumer goods. In the 1960s and 1970s, vacuum forming became even more popular due to the development of new materials and machinery. The introduction of thermoplastic materials such as polystyrene and PVC expanded the range of applications for vacuum forming. Additionally, advancements in machine technology allowed for faster pro
Send Inquiry
Ms. Lilian
Tel:
Fax:
Mobile Phone:+8615377731078
Email:sales@absthermoforming.com
Address:Room 101, Building 2, No. 109 of XiSha Road, Shijie Town, Dongguan City, Guangdong, China, Dongguan, Guangdong
Related Products List
Mobile Site
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
Fill in more information so that we can get in touch with you faster
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.