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When to Use china four wire spiral hydraulic hose？

Aug. 18, 2025

Wire Spiral Hydraulic Hose - Sinopulse

The four wire spiral layers or six wire spiral layers of spiralled wire reinforcement provides superior kick resistance and abrasion resistance for durable, long-lasting performance under the toughest working conditions.

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EN 856 4SP Steel Wire Spiraled Hydraulic Rubber Hose Technical Specification

Part No. I.D. O.D. W.P B.P B.R W.T Dash Inch mm mm MPa PSI MPa PSI mm kg/m EN856 4SP-04 1/4″ 6.4 18.0 45.0 180 150 0.620 EN856 4SP-06 3/8″ 9.5 20.8 44.5 178 180 0.730 EN856 4SP-08 1/2″ 12.7 24.0 41.5 166 230 0.900 EN856 4SP-10 5/8″ 15.9 27.6 35.0 140 250 1.130 EN856 4SP-12 3/4″ 19.1 31.8 35.0 140 300 1.480 EN856 4SP-16 1″ 25.4 39.7 28.0 112 340 1.980 EN856 4SP-20 1.1/4″ 31.8 50.8 21.0 84 460 2.910 EN856 4SP-24 1.1/2″ 38.1 57.2 18.5 74 560 3.430 EN856 4SP-32 2″ 50.8 69.8 16.5 66 660 4.890

EN 856 4SH Steel Wire Spiraled Hydraulic Rubber Hose Technical Specification

Part No. I.D. O.D. W.P B.P B.R W.T Dash Inch mm mm MPa PSI MPa PSI mm kg/m EN856 4SH-12 3/4″ 19.1 31.8 42.0 168 280 1.476 EN856 4SH-16 1″ 25.4 38.7 38.0 152 340 1.984 EN856 4SH-20 1.1/4″ 31.8 46.2 32.5 130 460 2.428 EN856 4SH-24 1.1/2″ 38.1 53.5 29.0 116 560 2.871 EN856 4SH-32 2″ 50.8 68.0 25.0 100 700 4.534

SAE 100R12 Steel Wire Spiraled Hydraulic Rubber Hose Technical Specification

Part No. I.D. O.D. W.P B.P B.R W.T Dash Inch mm mm MPa PSI MPa PSI mm kg/m SAE 100R12-06 3/8″ 9.5 20.2 28.0 112 125 0.707 SAE 100R12-08 1/2″ 12.7 23.5 28.0 112 180 0.871 SAE 100R12-10 5/8″ 15.9 27.3 28.0 112 200 1.107 SAE 100R12-12 3/4″ 19.1 31.0 28.0 112 240 1.339 SAE 100R12-16 1″ 25.4 38.0 28.0 112 300 1.984 SAE 100R12-20 1.1/4″ 31.8 47.0 21.0 84 420 2.532 SAE 100R12-24 1.1/2″ 38.1 54.0 17.5 70 500 3.040 SAE 100R12-32 2″ 50.8 67.5 17.5 70 640 4.586

SAE 100R13 Steel Wire Spiraled Hydraulic Rubber Hose Technical Specification

Part No. I.D. O.D. W.P B.P B.R W.T Dash Inch mm mm MPa PSI MPa PSI mm kg/m SAE 100R13-12 3/4″ 19.1 31.8 35.0 140 240 1.472 SAE 100R13-16 1″ 25.4 39.2 35.0 140 300 1.984 SAE 100R13-20 1.1/4″ 31.8 50.0 35.0 140 420 3.519 SAE 100R13-24 1.1/2″ 38.1 58.5 35.0 140 500 3.440 SAE 100R13-32 2″ 50.8 72.0 35.0 140 640 4.765

SAE 100R15 Spiral Steel Wire Spiraled Hydraulic Rubber Hose Technical Specification

Part No. I.D. O.D. W.P B.P B.R W.T Dash Inch mm mm MPa PSI MPa PSI mm kg/m SAE 100R15-12 3/4″ 19.1 31.8 42.0 168 265 1.472 SAE 100R15-16 1″ 25.4 39.2 42.0 168 330 1.984 SAE 100R15-20 1.1/4″ 31.8 50.0 42.0 168 445 3.519 SAE 100R15-24 1.1/2″ 38.1 58.2 42.0 168 530 4.499 SAE 100R15-32 2″ 50.8 72.0 35.0 140 640 6.449

What is spiral hydraulic hoses
A spiral hydraulic hose, or spiral hose, is a high-pressure hydraulic hose that is a critical part of hydraulic systems used in dozens of industries. Spiral hoses get their name from their reinforcement, which is made of multiple layers of steel wire (usually four or six layers) that are twisted together and stacked in alternating directions to create a "spiral" shape. Of the two main types of rubber hydraulic hoses (braided or spiral), spiral hydraulic hoses are the preferred choice for high-pressure applications and extreme conditions, and the added rigidity of their spiral construction makes them stronger and safer than the more flexible braided hydraulic hoses. However, due to this rigidity, the bend radius of spiral hoses is significantly smaller than that of braided hoses. As with all things, which type of hose to choose depends on the application.

Where can Spiral Hydraulic Hose used?
Spiral hoses are reliable and rugged high-pressure hydraulic hoses that can get heavy-duty jobs done safely and efficiently. They are popular in industries such as construction, mining, agriculture, highway maintenance, and any application that needs to handle high peak pressures and rigorous operating conditions. Spiral hydraulic hoses are versatile and highly sought after. As a result, there are many different categories, types, and sizes of spiral hoses, so finding the right hose and size for your operation can be difficult and overwhelming.

Difference between Spiral and Braided Hydraulic Hoses?
Construction
For braided hoses, as the name implies, this layer consists of steel wires that alternately cross to form a braid. The manufacturing process is fairly complex and requires the use of large braiding machines to form the braid on an extruded inner tube. It also requires an extensive quality inspection protocol to ensure that the braid does not split; otherwise, the thickness of the final product will be affected.
Spiral hoses, on the other hand, also have steel wires wrapped around the inner tube, but instead of interlacing, they are arranged in parallel in a spiral pattern. Manufacturing a spiral hydraulic hose is generally faster than a braided hose because it has the same number of reinforcement layers.
Flexibility
Braided hoses are more flexible than spiral hoses. This is because the interlocking pattern of the braid gives it a higher tensile strength. Spiral hydraulic hoses require additional layers of counter-helix to withstand the same pressure as braided hydraulic hoses, which increases its outer diameter and reduces its minimum bend radius. Therefore, braided hydraulic hoses are ideal for applications that require the hose to be twisted in an unconventional position to be installed.
Durability
Durability is one area where spiral hoses outperform braided hoses. In hydraulic systems where pressure changes occur frequently, the hoses tend to expand and contract to compensate for the peaks and drops in pressure. Over time, these changes can cause braided hoses to lose tensile strength as the tightness between them weakens. Additionally, the friction between the braided wires generates heat, which degrades the performance of the inner and outer tubes. Spiral braids tend to exhibit higher resistance to pressure changes, making them more durable in the long run.
Applications
Most braided hoses are suitable for low- to medium-pressure applications, such as return lines, hydraulic lifts, and large engines. Spiral hoses are ideal for hydrostatic drives that operate at higher pressures and have rapid pressure changes. They are most commonly used in large, specialized heavy machinery, such as mining excavators and off-road dump trucks.

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Braided Hydraulic Hoses Versus Spiral: Which to Use? - Brennan Blog

Braided Hydraulic Hose

Wire braided hydraulic hose incorporates one or two high tensile steel wires which are woven and crossed to overlap each other over a synthetic rubber or elastomeric hose. The wire braiding is performed on machines which wind the wire in a crisscross pattern around the hose. This type of overlapping braiding of the wire allows for flexibility to make tight bends and significantly improves burst resistance. Unlike spiral wound hose, braided hydraulic hoses withstand more tensile stress, allowing it to achieve these tighter bend radiuses.

Braided hose is the most popular hydraulic hose, primarily due to its excellent strength and flexibility. While available in an extensive selection of pressure ratings and sizes, the pressure rating is reduced with increases in inner tube ID. This equates to the hose having a four to one safety factor, with working pressure rated at a quarter of burst pressure.

Spiral Wound Hydraulic Hose

Spiral wound hydraulic hose is more rigid, commonly used in high pressure applications and where there are no significant space limitations that require the hose to be overly flexible. A spiral wound hose comprises of four or six wires depending on the application, helically wrapped and stacked on top of each other, rather than wound like a braided hose. Spiral hose incorporates high-tensile wire which provides the hydraulic hose with exceptional strength, yet it is also very inflexible, with a minimum bend radius. However, a smaller diameter allows for a tighter bend radius.

For instance, a small diameter spiral wound hydraulic hose can operate at PSI with just one layer of spiral, making it inherently flexible. Where a larger diameter hose may require four layers of spiral wire to handle PSI, which will make it very rigid with a highly reduced bend radius, resulting in less routing flexibility.

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Spiral hydraulic hose has an extremely high resistance to pressure spikes, which is required for many large diameter, high-pressure applications.

Braided versus Spiral: What to Choose

It really comes down to gains and losses. If the application calls for very high-pressure hose that will experience higher impulses, then a spiral wound hose is the best choice. But you will sacrifice flexibility and make it difficult to build a system in a small space or connect to (devices) that have frequent articulating movement, such as a backhoe or robotic arm. In these applications, braided hose may be the best choice. In fact, according to Tech Briefs: “Robotic system designers should choose the right power source for the job. Often, electric motors are chosen without thinking about the benefits of hydraulics or pneumatics. For applications where precise control of large forces and smooth motion are required, or applications that require “forgiveness” in the motion, fluid power can deliver significant benefits compared to electromechanical motion.”

Take the example of using the same hose construction type in a braided hose, and then in a spiral wound hose, where flexibility is reduced as the diameter increases.

A ¼ inch ID 1-wire braided hose that’s rated for psi has a very flexible bend radius of 1 ½ inches. However, the same hose type that has a 1-inch ID and is rated for psi, has a drastically reduced bend radius of 5 ½ inches.
In the case of spiral hose, a ¼ inch ID would be rated for psi and have a minimum bend radius of only 5 inches, compared to the 1 ½ inches for a braided hose. And where the 1-inch ID spiral wound hose would still have a pressure rating of psi, but at 1 inch ID has a minimum bend radius of only 12 inches. It’s almost like bending a thick steel pipe. You’ll only get so much bend before it cracks. Yet, the spiral hose clearly can withstand much higher pressures and pressure spikes.

Choosing the Wrong Hose Type Can Cause Catastrophic Failure

Selecting the wrong hydraulic hose or improper installation and configuration can cause catastrophic failure. And it can happen almost immediately. If the minimum bend radius exceeded, or 1 or 2 braided hose is used under very high pressure, where a 4 or 6 wire spiral hose was the right choice., this can lead to leaks at the bend or cause the hose to burst. In either case, dangerous fluid can be quickly expelled causing damage to equipment or personnel.

Always check the manufacturer’s recommended bend radius and route the hose in a way that does not exceed the recommendation. If the hose bend radius is exceeded while in a suction or vacuum, it will likely become flat in the area of the bend, restricting flow, or even causing the hose to kink. It’s like bending a kink in your garden hose, but much worse something has to give.

Conclusion

Braided hoses are used in low to medium, less intensive pressure applications such as engines, hydraulic lifts and return lines. Spiral hoses are best for higher pressures and frequent pressure surges such as in hydrostatic drives, large off-road earth moving dump trucks or mining excavators. Simply put, braided hoses are ideal for high pressures requiring tight bend radius, where spiral hoses are best for extremely high pressure, high impulse applications.

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