Product Description

Product Description

ISO/DOT/TPED Certified 40L High Pressure Seamless Gas Cylinder / Carbon Monoxide/ Oxygen / Argon / CO2 Cylinder
We offer oxygen/carbon monoxide/nitrogen/argon gas in high-pressure gas cylinders. Seamless steel cylinder using advanced technology, through the national certification, in line with international quality standards and safety standards, is widely used in various fields such as industry, laboratory research, medical treatment etc.
We can supply the cylinders of different pressure, water capacity according to the requirements of customers.
We can also supply the cylinders for export according to the foreign customers’ requirements of size, surface color and vavle of gas cylinders.

Product name

Steel Gas Cylinder for Oxygen

Working pressure

150Bar

Water Capacity

50L

Wall Thickness

5.8mm

Outside Diameter

229mm

Weight(without valve)

51kg

Product quality certification

CE

Size

219mm*1330mm

standard

ISO9809

Useage

oxygen, co2

Kind of power

Hydraulic

 

Cylinder Production Process

Company Profile

 

ABOUT US

Forterra Gas is a leading industrial gases and cylinders supplier in ZheJiang province, China. We supply a wide portfolio of Industrial gases, gas & safety equipment, solutions & services for gas applications across most industries, including Argon Gas, Oxygen Gas, Acetylene Gas, Helium Gas, Hydrogen Gas, Nitrogen Gas,Carbon Dioxide,Propane, Mixed Gas etc.

Our Pressure Vessel factory is 1 of the largest manufacturer of seamless high pressure cylinders. The company’s advanced and sophisticated production process, state of the art equipment and stringent quality routines secure strong and safe cylinders with a long life time.

Forterra is trusted for its high standards and commitment to an excellent and stable quality by many industrial gas companies, as evidenced by exporting high pressure cylinders to more than 75 countries. We manufactures seamless high pressure cylinder with outside diameter ranging from 100 to 325mm and with a maximum working pressure of 300bar.

Forterra Gas is also a designer, manufacturer, supplier and installer of industrial gases production systems, including air separation plants, oxygen plants, acetylene plants, vaporizers, cryogenic liquid pumps, cryogenic liquid storage tanks etc, including associated engineering, construction, installation, training, start-up and maintenance services.

Packaging & Shipping

Certifications

FAQ

Q1: Are you manufacturer or trade company?
A1: We are a Chinese manufacturer, and have been specializing in manufacturing gas cylinders for more than 10 years. Our company brand is “FA”.

Q2: What is your daily production capacity?
A2: Our production capacity everyday is 800~1000 units.

Q3: What is your delivery time?
A3: Usually our delivery time is 25-45 days against the advance payment. Mainly it depends on when we get the production materials.

Q4: What certificates do you have?
A4: We have ISO9001 and IATF16949 for management system, and ISO9809, ISO11439 and ECE R110 for production approval.

Q5: Do you accept OEM production?
A5: Of course, we have served several famous motor OEMs, such as TOYOTA(Thailand)-Thailand, IKCO-Iran, GAZ-Russia, DF-China, and FOTON-China, etc. We would like to serve more customers with our superior quality.

Q6: Can you provide samples to us?
A6: Yes, we can provide 1-2 samples for your testing freely, but you need to undertake the logistic cost firstly.

Q7: Can you customize the products?
A7: Yes, we can provide you with various customized products. For example, your company brand/logo, different accessories and your favorite colors.

 

Material: Stainless Steel
Usage: Medical
Structure: General Cylinder
Power: Hydraulic
Standard: Standard
Pressure Direction: Single-acting Cylinder

Customization:
Available

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single acting hydraulic cylinder

Can single-acting hydraulic cylinders be used in aerospace applications?

Yes, single-acting hydraulic cylinders can be used in aerospace applications. Here’s a detailed explanation:

Aerospace engineering involves designing and manufacturing aircraft and spacecraft, which require precise control and reliable actuation systems. Single-acting hydraulic cylinders are utilized in certain aerospace applications due to their ability to provide controlled linear motion and force.

Here are some examples of how single-acting hydraulic cylinders are used in aerospace:

1. Landing Gear Systems: Landing gear systems in aircraft play a crucial role in takeoff, landing, and taxiing. Single-acting hydraulic cylinders are commonly employed in these systems to extend and retract the landing gear. The cylinders provide the necessary force to support the aircraft’s weight and ensure smooth landing gear operation.

2. Cargo Doors and Access Panels: Aircraft cargo doors and access panels require controlled opening and closing mechanisms. Single-acting hydraulic cylinders are used to actuate these doors and panels, providing the force needed to move them and secure them in place during flight.

3. Flight Control Surfaces: Single-acting hydraulic cylinders are also applied in aircraft flight control systems. These systems control the movement of flight control surfaces such as ailerons, elevators, and rudders, which are essential for maneuvering the aircraft. Hydraulic cylinders provide the necessary force to actuate these surfaces, enabling precise control and maneuverability.

4. Thrust Reverser Systems: In some aircraft, thrust reverser systems are used to assist with deceleration during landing. Single-acting hydraulic cylinders are involved in these systems, helping to deploy and stow the thrust reverser mechanisms, which redirect engine thrust forward to assist in braking.

5. Spacecraft Applications: Single-acting hydraulic cylinders find applications in spacecraft systems as well. They can be used for functions such as deploying scientific instruments, extending solar panels, or controlling antenna movement. The cylinders provide reliable and controlled linear motion in the harsh conditions of space.

It is important to note that aerospace applications have stringent requirements for reliability, weight reduction, and safety. Single-acting hydraulic cylinders used in aerospace must meet rigorous standards and undergo extensive testing and certification processes to ensure their performance and reliability in extreme operating conditions.

In summary, single-acting hydraulic cylinders are employed in various aerospace applications, including landing gear systems, cargo doors and access panels, flight control surfaces, thrust reverser systems, and spacecraft applications. Their ability to provide controlled linear motion and force makes them valuable components in achieving precise actuation and control in aerospace engineering.

single acting hydraulic cylinder

How does a single-acting hydraulic cylinder contribute to precise force application in industrial settings?

A single-acting hydraulic cylinder plays a significant role in enabling precise force application in industrial settings. Here’s a detailed explanation:

In many industrial applications, the ability to apply precise and controlled forces is crucial for achieving desired outcomes. A single-acting hydraulic cylinder offers several features that contribute to precise force application. Here are the key factors:

1. Hydraulic Systems: Single-acting hydraulic cylinders are typically part of a hydraulic system that includes a pump, valves, and control mechanisms. The hydraulic system allows for precise control over the force applied by the cylinder. By regulating the hydraulic pressure supplied to the cylinder, the force generated can be accurately adjusted to match the specific requirements of the application. This precise control enables operators to apply forces with a high degree of accuracy.

2. Force Generation: Single-acting hydraulic cylinders are designed to generate force in a single direction, either during extension or retraction of the piston. The force generated is directly proportional to the hydraulic pressure applied to the cylinder. By precisely controlling the hydraulic pressure, the force applied by the cylinder can be finely adjusted to meet the desired level of precision. This is particularly beneficial in industrial settings where precise force application is necessary for tasks such as assembly, pressing, clamping, or material deformation.

3. Load Sensing and Feedback: Some advanced hydraulic systems incorporate load sensing mechanisms and feedback devices. Load sensing allows the hydraulic system to monitor the force being exerted by the cylinder in real-time. This feedback information can be used to adjust the hydraulic pressure and ensure that the desired force is maintained accurately. Load sensing and feedback systems enhance the precision of force application by continuously monitoring and adjusting the hydraulic parameters to match the requirements of the industrial process.

4. Control Valves: Single-acting hydraulic cylinders can be equipped with control valves that provide further control over the force application. Control valves, such as pressure relief valves or flow control valves, regulate the flow of hydraulic fluid to the cylinder and control the rate at which the force is applied. These valves can be adjusted to fine-tune the force application, allowing for precise and gradual force buildup or release. By manipulating the control valves, operators can achieve the desired level of precision in force application for industrial processes.

5. Application-Specific Customization: Single-acting hydraulic cylinders can be customized to meet specific industrial requirements. The cylinder’s design, size, and materials can be tailored to suit the application, ensuring optimal force application and precision. Customization options include the selection of appropriate seals, coatings, or accessories to enhance the cylinder’s performance and accuracy in specific industrial settings.

6. Safety Considerations: Precise force application in industrial settings often involves safety considerations. Single-acting hydraulic cylinders can incorporate safety features such as pressure relief valves, emergency stop mechanisms, or overload protection systems. These safety measures help prevent excessive force application, equipment damage, or system failures, ensuring the safety of personnel and the integrity of the industrial processes.

By leveraging the features of single-acting hydraulic cylinders, industrial settings can achieve precise force application, which is essential for tasks that require accuracy, consistency, and repeatability. Whether it’s in manufacturing, assembly, material processing, or other industrial applications, the precise force application facilitated by single-acting hydraulic cylinders contributes to improved product quality, operational efficiency, and overall productivity.

single acting hydraulic cylinder

How does a single-acting hydraulic cylinder contribute to efficient force generation?

A single-acting hydraulic cylinder plays a crucial role in efficiently generating force for various applications. Here’s a detailed explanation:

1. Direct Force Generation: Single-acting hydraulic cylinders are designed to generate force in one direction, typically the extending stroke. By applying hydraulic pressure to the cylinder’s pressure chamber, the piston moves linearly, transmitting force to the piston rod. This direct force generation mechanism allows for efficient and effective transfer of hydraulic energy into mechanical force.

2. High Power-to-Weight Ratio: Single-acting hydraulic cylinders offer a high power-to-weight ratio, making them efficient in force generation. The compact and lightweight design of the cylinder allows for a significant force output relative to its size and weight. This characteristic is especially advantageous in applications where space and weight limitations exist.

3. Mechanical Advantage: The mechanical advantage of a single-acting hydraulic cylinder contributes to efficient force generation. The cylinder’s design incorporates a piston with a larger effective area on the pressure side and a smaller effective area on the return side. This size difference creates a mechanical advantage, amplifying the force output compared to the hydraulic pressure input. As a result, the cylinder can generate a greater force with the same hydraulic pressure.

4. Customizable Force Output: Single-acting hydraulic cylinders offer flexibility in adjusting the force output to suit specific requirements. The force generated by the cylinder can be controlled by adjusting the hydraulic pressure supplied to the pressure chamber. This adjustability allows for precise force matching for different loads and applications, contributing to efficient force generation.

5. Energy Efficiency: Single-acting hydraulic cylinders are known for their energy efficiency. They require hydraulic pressure only during the extending stroke, where force generation is needed. During the return stroke, external forces or mechanisms, such as gravity or springs, are utilized instead of hydraulic pressure. This intermittent use of hydraulic energy minimizes energy consumption, resulting in efficient operation and reduced power requirements.

6. Reliability and Durability: Single-acting hydraulic cylinders are designed to be reliable and durable, contributing to efficient force generation over extended periods. The cylinders are constructed with robust materials and components capable of withstanding high forces and pressures. Additionally, their simple design with fewer moving parts reduces the likelihood of mechanical failures, ensuring consistent and efficient force generation.

7. Integration with Hydraulic Systems: Single-acting hydraulic cylinders can be seamlessly integrated into hydraulic systems, further enhancing their efficiency in force generation. They can be combined with other hydraulic components such as pumps, valves, and actuators to create a comprehensive system that optimizes force generation and control. This integration allows for coordinated operation and efficient utilization of hydraulic power.

In summary, a single-acting hydraulic cylinder contributes to efficient force generation through direct force transmission, high power-to-weight ratio, mechanical advantage, customizable force output, energy efficiency, reliability, durability, and integration with hydraulic systems. These characteristics make single-acting hydraulic cylinders a preferred choice in various applications where efficient force generation is essential.

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editor by CX 2023-12-09