Product Name: Injection Molding Machine
Product Type: Hydraulic/ Electric/ Hybrid
Capacity: Varies from 50 to 5000 tons
Material Compatibility: Plastic, Rubber, Metal
Injection System: Single/ Multi-stage
Clamping Force: Varies from 50 to 5000 tons
Injection Rate: 100g-10kg/s
Mold Opening Stroke: Varies from 200 to 2000mm
Max Daylight: Varies from 500 to 4000mm
Platen Size: Varies from 400x400mm to 5000x5000mm
Control System: PLC or computer-controlled
Power Supply: 3-phase AC 380V/50Hz
Cooling Method: Water/oil cooling
Injection Pressure: Varies from 30 to 300MPa
Max Temperature: Varies from 150 to 400℃
Application: Manufacturing various plastic, rubber, and metal products such as automotive parts, household appliances, and electronic components.
Plastic Processed: | PP, PC | Condition: | New |
Style: | VERTICAL | Ejector Stroke(mm): | 660 mm . |
Ejector Force(kN): | 152kN | Theoretical Shot Volume(cm2): | 361 cm³ |
Injection Rate (g/S): | 122 g/s | Machine Type: | Hydraulic |
Injection Weight (9): | 180 g | Screw diameter (mm): | 641 mm |
Distance between Tie Bars: | 900*405 | Weight (KG): | 362 kg |
Type: | Tube Head Injection | Place of Origin: | Guangdong, China |
Open Stroke(mm): | 165 mm | Model Number: | HM105-25 |
Brand Name: | HOMMAR | Power (kW): | 378 KW |
Warranty: | 2 years | Key Selling Points: | Automatic |
Applicable Industries: | Manufacturing Plant | Showroom Location: | None |
Marketing Type: | Other | Machinery Test Report: | Provided |
Video outgoing-inspection: | Provided | Warranty of core components: | 1 Year |
Core Components: | Bearing, Motor, Other | Plastic Type: | Thermoplastic |
After Warranty Service: | Field maintenance and repair service . | Keyword: | ness carbon handlebar Injection machinery |
Molds: | 3sets | Oil Tank Capacity: | 335L |
Product name: | Injection machinery |
1.About the scale of components of injection molding machine factory
Injection molding machine factories vary in size and scale
Some factories may only produce a few machines per year, while others may produce hundreds or even thousands of machines per year
The size of the factory will depend on the size of the machines being produced, the number of machines being produced, and the demand for the machines
2.What are the advantages of using an components of injection molding machine?
We have a wide range of components of injection molding machine customer groups and establishes long -term cooperative relationships with partners
The countries we provide services include
1
Cost-Effective: Injection molding is one of the most cost-effective manufacturing processes due to its high production rate and low material waste
2
Versatility: Injection molding machines can be used to produce a wide variety of parts and products with different shapes, sizes, and materials
3
Automation: Injection molding machines are highly automated, allowing for a high degree of repeatability and accuracy
4
Durability: Injection molded parts are highly durable and can withstand extreme temperatures and pressures
5
Efficiency: Injection molding machines are highly efficient, allowing for quick production of large quantities of parts
3.How has the use of robotics improved the efficiency of components of injection molding machines?
The use of robotics in injection molding machines has improved efficiency in a number of ways
Robotics can be used to automate the loading and unloading of parts from the injection molding machine, reducing the need for manual labor
Robotics can also be used to monitor the injection molding process, allowing for faster and more accurate adjustments to be made to the machine
Additionally, robotics can be used to automate the inspection of parts, reducing the need for manual inspection and allowing for faster production
Finally, robotics can be used to automate the cleaning and maintenance of the injection molding machine, reducing downtime and increasing efficiency
4.What types of materials can be used in an components of injection molding machine?
We have the leading technology and innovation capabilities, and attach importance to employee training and development, and provide promotion opportunities
Common materials used in injection molding machines include thermoplastics, thermosets, elastomers, and metals
Thermoplastics are the most commonly used materials, as they are easy to process and can be recycled
Examples of thermoplastics include polyethylene, polypropylene, polystyrene, polyvinyl chloride, and nylon
Thermosets are materials that are cured and hardened during the injection molding process, and are not able to be recycled
Examples of thermosets include epoxy, polyester, and phenolic
Elastomers are materials that are flexible and can be used to create rubber-like parts
Examples of elastomers include silicone, polyurethane, and thermoplastic elastomers
Metals can also be used in injection molding machines, but are not as common as thermoplastics
Examples of metals used in injection molding include aluminum, brass, and steel
5.How does the quality of the mold affect the final product in injection molding?
We have established long-term and stable partnerships with our suppliers, so we have great advantages in price and cost and quality assurance
The quality of the mold affects the final product in injection molding in several ways
Poorly designed or constructed molds can lead to defects in the finished product, such as warping, cracking, or uneven surfaces
Poorly machined molds can also lead to poor part quality, as the plastic may not fill the mold properly or may not be able to be ejected from the mold
Poorly maintained molds can also lead to poor part quality, as the mold may not be able to maintain its shape or may have worn surfaces that can cause defects in the finished product
6.About components of injection molding machine production capacity
Injection molding machine production capacity is the maximum amount of parts that can be produced by a single injection molding machine in a given period of time
This capacity is typically measured in parts per hour (PPH) or parts per minute (PPM)
The production capacity of an injection molding machine is determined by the size of the machine, the type of material being used, and the complexity of the part being produced
7.About components of injection molding machine production equipment
Injection molding machine production equipment is used to produce plastic parts and components for a variety of industries
The injection molding process involves melting plastic pellets and injecting them into a mold cavity
The molten plastic is then cooled and ejected from the mold
Injection molding machines come in a variety of sizes and configurations, and can be used to produce parts ranging from small medical components to large automotive parts
8.Can an components of injection molding machine handle multi-component materials?
We pay attention to the introduction and training of talents, scientifically regulate the management system, and focus on cultural construction and team cohesion
Yes, many injection molding machines are designed to handle multi-component materials
These machines are often referred to as two-shot" or "multi-shot" machines
9.Are there any special considerations for high-temperature materials in an components of injection molding machine?
Yes, there are several special considerations for high-temperature materials in an injection molding machine
These include:
1
Ensuring that the injection molding machine is equipped with a high-temperature barrel and nozzle
2
Using a high-temperature screw and barrel material that can withstand the elevated temperatures
3
Using a high-temperature mold material that can withstand the elevated temperatures
4
Ensuring that the injection molding machine is equipped with a high-temperature control system to regulate the temperature of the material
5
Using a high-temperature lubricant to reduce friction and wear on the machine components
6
Ensuring that the injection molding machine is equipped with a cooling system to reduce the temperature of the material after injection
10.Are there any advancements in the materials used in injection molding?
We operate our components of injection molding machine business with integrity and honesty
Yes, there have been many advancements in the materials used in injection molding
Some of the most common materials used in injection molding include polypropylene, polycarbonate, nylon, ABS, and polystyrene
In recent years, new materials such as bioplastics, liquid silicone rubber, and metal alloys have been developed for use in injection molding
These materials offer improved performance, durability, and cost-effectiveness compared to traditional materials
11.What are the temperature and pressure settings for different materials in an components of injection molding machine?
We have a first -class management team, and we pay attention to teamwork to achieve common goals
The temperature and pressure settings for different materials in an injection molding machine will vary depending on the type of material being used
Generally, the temperature should be set between 180-220°C (356-428°F) and the pressure should be set between 1,000-2,000 bar (14,500-29,000 psi)
However, it is important to consult the material manufacturer's instructions for the exact settings for the specific material being used
12.How does an components of injection molding machine work?
Our company has many years of components of injection molding machine experience and expertise
Injection molding machines work by melting plastic pellets and injecting them into a mold cavity
The molten plastic is then cooled and ejected from the mold
The injection molding process is highly automated and can produce large quantities of parts in a short amount of time
The injection molding machine consists of several components, including a hopper, a barrel, a reciprocating screw, a heating element, a nozzle, and a mold
The hopper is used to feed the plastic pellets into the barrel
The reciprocating screw is used to melt the pellets and inject them into the mold
The heating element is used to heat the plastic to the desired temperature
The nozzle is used to inject the molten plastic into the mold
The mold is used to shape the plastic into the desired shape
13.About components of injection molding machine production management system
Injection molding machine production management system is a software solution designed to help manufacturers manage the production of injection molding machines
It provides a comprehensive set of tools to help streamline the production process, from scheduling and tracking orders to managing inventory and quality control
The system also helps to ensure that all parts and components are available when needed, and that the production process is running smoothly and efficiently
14.About components of injection molding machine raw materials
Injection molding machine raw materials are typically thermoplastics, thermosets, elastomers, and metals
Thermoplastics are the most commonly used raw materials in injection molding machines
They are typically composed of polymers, such as polyethylene, polypropylene, polystyrene, and polyvinyl chloride
Thermosets are materials that are cured by heat or pressure and are not able to be melted and reshaped
Elastomers are materials that are flexible and can be stretched and then return to their original shape
Metals are also used in injection molding machines, such as aluminum, brass, and steel
15.How accurate are the dimensions of products produced by an components of injection molding machine?
We focus on our customers' needs and strive to meet their expectations, so we take this very seriously
The accuracy of the dimensions of products produced by an injection molding machine depends on the quality of the mold and the skill of the operator
Generally, injection molding machines can produce parts with tolerances of +/- 0
005 inches (0
127 mm)
However, with the right mold and operator, parts with tolerances of +/- 0
001 inches (0
025 mm) can be achieved
16.About the development history of components of injection molding machine factory
Injection molding machine factory has a long history of development
The first injection molding machine was invented in 1872 by John Wesley Hyatt, an American inventor
He developed the first injection molding machine to produce celluloid billiard balls
In the 1930s, the first fully automatic injection molding machine was developed by James Watson Hendry of the United Kingdom
This machine was capable of producing plastic parts with complex shapes
In the 1950s, the first commercially successful injection molding machine was developed by the German company Krauss-Maffei
This machine was capable of producing parts with complex shapes and high precision
In the 1960s, the first all-electric injection molding machine was developed by the Japanese company Toshiba
This machine was capable of producing parts with high precision and repeatability
In the 1970s, the first microprocessor-controlled injection molding machine was developed by the American company Cincinnati Milacron
This machine was capable of producing parts with high precision and repeatability
In the 1980s, the first two-platen injection molding machine was developed by the German company Demag
This machine was capable of producing parts with complex shapes and high precision
In the 1990s, the first servo-driven injection molding machine was developed by the Japanese company Nissei
This machine was capable of producing parts with high precision and repeatability
In the 2000s, the first multi-component injection molding machine was developed by the German company Arburg
This machine was capable of producing parts with complex shapes and high precision
17.What are the energy consumption levels of different types of components of injection molding machines?
We enjoy high authority and influence in the industry and continue to innovate products and service models
The energy consumption levels of different types of injection molding machines vary depending on the size and type of machine
Generally, the larger the machine, the higher the energy consumption
For example, a standard hydraulic injection molding machine typically consumes between 3 and 5 kWh per hour, while a servo-driven machine can consume up to 15 kWh per hour
Additionally, machines with higher clamping forces tend to consume more energy than those with lower clamping forces
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