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JIC 37°Cone Hydraulic Hose Fittings

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Yuyao Duoli Hydraulics Co., Ltd.
Founded in 2009, Yuyao Duoli Hydraulics Co., Ltd. is a China OEM JIC Hose Fittings Supplier and ODM JIC 37°Cone Hydraulic Hose Fittings company, The company covers an area of 15,000 square meters with a 10,000 square meter factory building and currently employs 60 people. The annual production capacity is 10 million units and the annual sales volume is 30 million yuan. We are also ISO9001 certified for quality systems.
We have more than 120 types of CNC machine tools and automated lathes, and are equipped with inspection equipment such as digital projectors and precision detectors.
We specialize in Wholesale JIC 37°Cone Hydraulic Hose Fittings. Our main customers include Malaysian WH WENTECH Company, French IPI Group, SANY Group, etc. The company has branches in Malaysia, Hebei, Hangzhou and Beijing.
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JIC 37°Cone Hydraulic Hose Fittings Industry knowledge
Why Are JIC Hose Fittings Preferred in High-Pressure Hydraulic Environments?
JIC (Joint Industry Council) hose fittings are often preferred in high-pressure hydraulic environments for several reasons, each contributing to their widespread adoption and reliability in such demanding applications.
Firstly, JIC hose fittings are renowned for their robust construction and durability. These fittings are typically made from high-quality materials such as stainless steel or brass, which provide excellent resistance to corrosion, abrasion, and wear. This durability ensures that JIC fittings can withstand the extreme pressures and harsh conditions commonly encountered in high-pressure hydraulic systems without compromising their integrity or performance.
Secondly, the design of JIC hose fittings features a 37-degree flare seating surface, which enables a tight and secure connection between the fitting and the hose. This flare design creates a metal-to-metal seal, enhancing the fitting's ability to withstand high pressures without leaking. Additionally, the flare design allows for easy assembly and disassembly of the fittings, simplifying maintenance and repair procedures in high-pressure hydraulic environments.
Another key advantage of JIC hose fittings is their compatibility with a wide range of hydraulic hoses and equipment. JIC fittings are available in various sizes and configurations to accommodate different hose diameters and thread types, providing flexibility and versatility in hydraulic system design and installation. This compatibility ensures that JIC fittings can be seamlessly integrated into existing hydraulic systems or customized for specific applications, making them a preferred choice for engineers and operators working in high-pressure environments.
Furthermore, JIC hose fittings are known for their reliability and performance under extreme pressure conditions. Whether used in hydraulic power units, heavy machinery, or industrial equipment, JIC fittings consistently deliver leak-free connections and optimal fluid transfer capabilities, even at high pressures. This reliability minimizes the risk of downtime, equipment failure, and safety hazards, ensuring uninterrupted operation and productivity in high-pressure hydraulic environments.
What Are the Key Differences Between JIC Hose Fittings and Other Hydraulic Fitting Types?
Understanding the key differences between JIC (Joint Industry Council) hose fittings and other hydraulic fitting types is essential for selecting the most suitable fittings for specific applications. While various hydraulic fitting types share common characteristics, each has unique features and advantages that distinguish it from others in terms of design, performance, and application.
One significant difference between JIC hose fittings and other hydraulic fitting types lies in their sealing mechanism. JIC fittings utilize a 37-degree flare seating surface to create a metal-to-metal seal between the fitting and the hose. This flare design ensures a secure connection and minimizes the risk of leaks, making JIC fittings particularly well-suited for high-pressure hydraulic applications. In contrast, other fitting types, such as NPT (National Pipe Taper) fittings, rely on tapered threads to create a seal, which may be less effective at higher pressures and can be prone to leakage if not properly tightened.
Another distinguishing factor is the thread type used in JIC hose fittings compared to other hydraulic fittings. JIC fittings typically feature straight threads with a 37-degree flare angle, whereas other fittings may utilize different thread types such as NPT, BSP (British Standard Pipe), or metric threads. The compatibility of thread types between fittings and hydraulic components is crucial for ensuring proper assembly and leak-free operation in hydraulic systems.
The construction and material composition of JIC hose fittings may differ from other hydraulic fitting types. JIC fittings are commonly manufactured from materials such as stainless steel or brass, which offer excellent corrosion resistance and durability. This robust construction makes JIC fittings suitable for use in demanding industrial environments where exposure to harsh conditions is common. In contrast, other fitting types may be constructed from materials such as steel, aluminum, or plastic, each with its own set of advantages and limitations in terms of strength, flexibility, and compatibility with hydraulic fluids.
The shape and configuration of JIC hose fittings may vary from other hydraulic fitting types. JIC fittings are available in a range of sizes and configurations, including straight, elbow, tee, and cross fittings, allowing for flexibility and adaptability in hydraulic system design and installation. Other fitting types may offer similar options in terms of configuration but may differ in design features such as sealing mechanisms, thread types, or material composition.
While JIC hose fittings share common characteristics with other hydraulic fitting types, including their role in connecting hydraulic hoses to components and facilitating fluid transfer, they have distinct differences in terms of sealing mechanisms, thread types, construction materials, and configurations. Understanding these differences is essential for selecting the most appropriate fittings for specific hydraulic applications, ensuring optimal performance, reliability, and safety in industrial settings.