JIC vs BSP Hydraulic Fittings

BSP and JIC Hydraulic Fittings: A Comparative Analysis

BSP and JIC Hydraulic Fittings A Comparative Analysis

BSP and JIC Hydraulic Fittings: A Comparative Analysis

In the complex landscape of hydraulic systems, choosing the right fittings is a decision that can significantly impact performance, reliability, and overall efficiency. With a myriad of options available, two types of fittings often stand out—JIC (Joint Industry Council) and BSP (British Standard Pipe). Both come with their unique features, advantages, and limitations. This comprehensive guide aims to delve into the intricacies of JIC and BSP fittings, offering insights into their origins, features, applications, and how to identify and measure them.

JIC Fittings

Definition and Origin

The JIC (Joint Industry Committee) fitting is a hydraulic fitting that originated in the United States. Designed to meet standards set by the Society of Automotive Engineers (SAE), it is commonly used in a variety of hydraulic applications.

Features

JIC fittings are known for their 37-degree flare seating surface, a key feature that distinguishes them from other types of hydraulic fittings. This design provides a strong metal-to-metal sealing surface. Also, JIC fittings have straight threads, and they are typically made of high-strength materials such as stainless steel, carbon steel, and brass, ensuring durability and reliability.

Typical Applications

JIC fitting guide Topa

JIC fittings are versatile and can be used in a variety of industries, including:

Construction machinery

Agricultural equipment

Automotive hydraulics

Industrial hydraulics

They are particularly useful in systems where high-pressure capabilities are required and leakage is a major concern.

Advantages

High-Pressure Handling: The 37-degree flare design allows JIC fittings to effectively handle high-pressure conditions.

Versatility: JIC fittings are compatible with a wide range of tubing and hose materials, making them highly versatile.

Easy to install: The design allows for quick and easy assembly and disassembly, saving time and labor costs.

Durability: JIC fittings are made of high-strength materials for durability, reducing the need for frequent replacement.

Disadvantages

Limited Material Options: Although durable, JIC fittings have limited material options compared to other fitting types.

Possibility of over-tightening: Metal-to-metal seals can sometimes be over-tightened, which can cause deformation and break the seal.

Dash
Size

Thread
size

Threads Pre
lnch

Female Thread
l.D.(mm)

Male Thread
O.D.(mm)

-2

5/16

24

6.7

7.9

-3

3/8

24

8.3

9.5

-4

7/16

20

9.9

11.1

-5

12

20

11.5

12.7

-6

9/16

18

12.7

14.3

8

3/4

16

17.5

19.1

-10

7/8

14

20.6

22.2

-12

1-1/16

12

24.6

27.0

-14

1-3/16

12

28.2

30.2

-16

1-5/16

12

31.4

33.3

-20

1-5/8

12

39.3

41.3

-24

1-7/8

12

45.6

47.6

-32

2-1/2

12

61.5

63.5

JIC hydraulic fittings size chart

BSP Fittings

Definition and Origin

BSP (British Standard Pipe) fittings are a globally recognized standard for connecting and sealing pipes and fittings. Originating from the United Kingdom, BSP threads have been adopted internationally and are based on ISO 228 and Whitworth standard threads. Developed in 1841, Whitworth threads were the world’s first screw thread standard, paving the way for BSP’s widespread adoption.

Features of BSP Fittings

BSP threads are rounded and have a 55-degree thread angle, which is different from the 60-degree angle found in NPT threads.  BSP threads come in two styles—parallel (often referred to as “G” threads) and tapered (referred to as “R” threads). BSP fittings often use bonded ring seals or O-rings, providing a secure, leak-tight seal without the need for thread sealants.

China BSP Fittings Topa

Advantages

Global Acceptance: Due to their British origin and international standardization, BSP fittings are widely accepted and used globally.

Excellent Sealing Properties: BSP fittings offer superior leak-tight seals, especially when used with bonded rings or O-rings. This makes them highly efficient in high-pressure systems.

Ease of Installation: The design of BSP fittings allows for straightforward assembly and disassembly, saving time and reducing labor costs.

Material Versatility: BSP fittings are made from a variety of materials, including steel, stainless steel, brass, and even plastics, making them suitable for a wide range of applications.

High-Pressure Ratings: BSP fittings are known for their ability to withstand high pressures, making them ideal for demanding hydraulic applications.

Disadvantages

Possibility of Leakage: While BSP fittings generally provide an excellent seal, metal-to-metal contact can sometimes lead to leakage if not installed properly.

Limited Availability in Some Areas: BSP fittings may not be readily available in areas where American standards are the norm.

Cost: High-quality BSP fittings made from premium materials can be more expensive than other types of fittings.

Thread
size

Threads
per inch

Pitch

Major diameter

Mm

Inch

1/16

28

0.907

7.723

0.304

1/8

28

0.907

9.728

0.383

1/4

19

1.337

13.157

0.518

3/8

19

1.337

16.662

0.656

1/2

14

1.814

20.995

0.825

5/8

14

1.814

22.911

0.902

3/4

14

1.814

26.441

1.041

1

11

2.309

33.249

1.309

1 1/4

11

2.309

41.91

1.65

1 1/2

11

2.309

47.803

1.882

2

11

2.309

59.614

2.347

2 1/2

11

2.309

75.184

2.96

3

11

2.309

87.884

3.46

4

11

2.309

113.03

4.45

5

11

2.309

138.43

5.45

6

11

2.309

163.83

6.45

BSP hydraulic fittings size chart

Key Differences Between JIC and BSP Fittings

Design and Construction

JIC (Joint Industry Council) Fittings: Originating in the United States, JIC fittings are known for their 37-degree flare seating surface. They are commonly used in high-pressure hydraulic systems.

BSP (British Standard Pipe) Fittings: Originating in the United Kingdom, BSP fittings come in two main types: parallel (BSPP) and tapered (BSPT). They are known for their rounded threads and are widely used in fluid and gas applications.

BSP Fittings types Topa

Comparison of the Design Features

JIC: The 37-degree flare seating surface ensures a metal-to-metal seal, which is highly effective in high-pressure systems.

BSP: The 30-degree cone seat, rounded threads, and the option for tapered threads provide a secure, leak-tight seal, especially when using bonded seals or O-rings.

Performance

JIC: Known for their high-pressure handling capabilities, making them ideal for hydraulic systems.

BSP: Known for their reliable sealing mechanisms, making them suitable for both high and low-pressure systems.

Pressure Handling Capabilities

JIC: Can handle pressures up to 10,000 psi depending on the material and size.

BSP: Generally suitable for up to 6,000 psi, but this can vary based on the material and application.

Compatibility

JIC: Primarily compatible with other JIC fittings and some SAE fittings.

BSP: Compatible with other BSP fittings and, in some cases, with Metric and NPT fittings.

Availability and Sourcing Options

JIC: Widely available in the United States and other countries that follow SAE standards.

BSP: Widely available in the UK and countries that follow British standards.

How to Identify JIC and BSP hydraulic fittings

Visual Inspection

JIC Fittings

JIC fittings are easily recognizable by the two marks present on the hex, which is the American Standard marking. Additionally, these fittings have a 37-degree flare at the end. If you’re unsure about the angle, a specialized protractor can be used to measure it accurately. This is crucial because the 37-degree flare is a defining characteristic of JIC fittings.

BSP Fittings

For BSP fittings, you’ll typically find an indentation on the hex of a fractional fitting. This is a quick way to identify BSP over other types. The fittings sit at a 30-degree angle, which is another distinguishing feature. Furthermore, the type of threads can give you more information: tapered threads indicate BSPT (British Standard Pipe Tapered), while parallel threads indicate BSPP (British Standard Pipe Parallel).

30° male and Female BSP Fittings Topa

Additional Identification Methods

Thread Pitch: Use a thread gauge to measure the threads per inch (TPI) for both JIC and BSP fittings. JIC usually has a finer thread, while BSP threads are generally coarser.

Country of Origin: JIC is predominantly used in the United States, while BSP is common in the UK and other countries that follow British standards. Knowing the origin of the machinery can offer clues.

Manufacturer’s Markings: Some manufacturers include specific markings or codes on the fittings, which can be cross-referenced with product manuals for identification.

How to Measure JIC and BSP Fittings

Measuring JIC Fittings

Diameter

When it comes to measuring the diameter of JIC fittings, precision is key. Utilize calipers to measure the outer diameter of the male thread or the inner diameter of the female thread. This step is crucial for ensuring that the fitting will properly connect with its corresponding component, thereby preventing any potential leaks or system failures.

Thread Count

Thread count is another vital metric. To determine the thread pitch, count the number of threads within an inch. This information is essential for compatibility, especially when you’re dealing with high-pressure hydraulic systems where even a minor mismatch can lead to significant issues.

Flare Angle

The flare angle is a defining characteristic of JIC fittings. Use a specialized angle gauge to confirm the 37-degree flare angle. This is especially important in high-pressure applications where a secure, leak-proof connection is paramount.

Measuring JIC Fittings Topa

Measuring BSP Fittings

Diameter

Just like with JIC fittings, the diameter is a critical measurement for BSP fittings. Use calipers to measure the major diameter of the male thread or the inner diameter of the female thread. Accurate measurement ensures that the fitting will seamlessly integrate into your hydraulic system.

Thread Count

BSP thread pitch is generally measured in threads per inch (TPI). To accurately determine this, use a thread gauge. Knowing the correct TPI is essential for ensuring that the BSP fitting will be compatible with other components in the system.

Thread Angle

BSP fittings have a unique 55-degree thread angle. Confirm this angle using an angle gauge to ensure you have the right type of fitting. This is particularly important in applications requiring a secure, leak-proof connection.

Type

BSP fittings come in two main types: BSPP (parallel) and BSPT (tapered). To determine which type you have, use a parallel or tapered gauge. This is crucial because each type has its own set of applications and compatibility requirements.

Making the Right Choice for Your Business

Assessing Your Needs

Before diving into the specifics of BSP and JIC fittings, it’s crucial to assess the needs of your hydraulic systems. Consider factors like operating pressure, fluid type, temperature, and the geographical location of your operations. These elements will guide you in making an informed decision.

BSP vs JIC: A Quick Comparison

BSP (British Standard Pipe) Fittings: Known for their excellent sealing properties and global acceptance. They are versatile, with both parallel (BSPP) and tapered (BSPT) options. Ideal for high-pressure, high-vibration applications.

JIC (Joint Industry Council) Fittings: Recognized for their high-pressure handling capabilities and 37-degree flare angle. They are predominantly used in the United States and are versatile, and compatible with a wide range of tubing and hose materials.

The Right Choice for You

High-Pressure Systems: If your operations require high-pressure handling, JIC might be more suitable due to its 37-degree flare design.

Global Operations: If your business operates internationally, especially in regions following British standards, BSP fittings might be the better option due to their global acceptance.

Versatility: If you need a fitting that can be used in a variety of applications, both JIC and BSP offer versatility, but BSP provides an added advantage with its parallel and tapered options.

Cost-Effectiveness: JIC fittings are generally more expensive due to their high-pressure capabilities. If cost is a significant factor, BSP might be a more economical choice.

Choosing the Best Manufacturer

Quality Assurance: Look for manufacturers who offer quality certifications and can provide test reports for their products.

Product Range: Choose a manufacturer that offers a wide range of fittings, giving you more options to find the perfect fit for your needs.

Customer Support: Excellent customer service, including after-sales support, can be a deciding factor.

Reputation: Research customer reviews and industry reputation to ensure you’re partnering with a reliable manufacturer.

Customization: If your hydraulic systems have unique requirements, a manufacturer that offers customization services can be invaluable.

By considering these factors, you can make an informed decision that aligns with the specific needs of your business. Whether you opt for BSP or JIC fittings, the key is to choose based on your operational requirements, ensuring optimal performance and reliability.

Why Choose Topa

Unmatched Quality

At Topa, we pride ourselves on delivering high-quality hydraulic fittings that meet international standards. Our products undergo rigorous quality checks to ensure they meet the high-pressure and high-performance demands of hydraulic systems.

Extensive Product Range

Topa offers an extensive range of hydraulic fittings, including both BSP and JIC types. This wide selection ensures that you’ll find the perfect fit for your specific needs, whether you operate domestically or internationally.

Competitive Pricing

Being a direct factory, Topa offers competitive pricing without compromising on quality. Our products provide a higher cost-performance ratio, making us a go-to choice for businesses looking for both affordability and performance.

BSP hydraulic fitting manufacturer process

Exceptional Customer Service

Customer satisfaction is at the core of our business. Our dedicated customer support team is always ready to assist you with any inquiries or issues you may have, both pre-sale and post-sale.

Proven Track Record

With years of experience in the hydraulic industry, Topa has built a reputation for reliability and excellence. Our clients, who range from experienced salespeople to maintenance professionals, trust us for their hydraulic fitting needs.

By choosing Topa, you’re not just buying a product; you’re investing in a partnership that offers quality, reliability, and value. Make the right choice for your business—choose Topa, the best hydraulic fittings manufacturer in China.

Conclusion

In summary, the decision between JIC and BSP fittings boils down to your specific needs, and this guide serves as a comprehensive resource to help you navigate this complex yet crucial aspect of hydraulic systems. Choose wisely, and you’ll set the stage for operational excellence and long-term success.

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understanding BSP hydraulic fittings

Understanding BSP Hydraulic Fittings

Understanding BSP Hydraulic Fittings: The Final Guide

This guide takes an in-depth look at the world of BSP, from its historical background to the various types such as BSPP and BSPT, each of which offers unique benefits. Whether you’re a seasoned maintenance professional or a distributor looking for a reliable product, understanding the ins and outs of BSP is invaluable. We’ll also explore the importance of ISO standards in ensuring the safety and efficiency of these fittings, and guide you through how to effectively measure and install them. So if you’re looking for a comprehensive resource that covers everything you need to know about inch threads, read on.

History of British Standard Pipe

The history of British Standard Pipe (BSP) can be traced back to early 20th century England. Designed as a comprehensive set of threading standards, typically used for joining pipes and fittings, British Standard Pipe (BSP) emerged to simplify and standardize the various thread types available in the UK. As technology advances, BSP threads are becoming progressively more global.

BSP Thread Types

Parallel Thread: BSPP

BSPP stands for British Standard Parallel Pipe. These fittings come with either parallel or straight threads.The pitch angle of a BSPP fitting is always 55 degrees. The number of threads varies depending on the size of the fitting.

BSPP Advantages

The parallel threads of BSPP fittings make them easy to install and replace, reducing downtime during maintenance. In addition, because the threads are parallel, BSPP fittings typically use a bonded seal or o-ring for a leak-tight connection. This additional seal adds another layer of security to your piping system.

BSPP vs BSPT thread

Tapered Thread: BSPT

BSPT is British Standard Tapered Pipe Thread. These fittings look a lot like BSPP but with one key difference – BSPT threads are tapered. This tapered thread provides a more secure fit and better sealing. Like BSPP fittings, BSPT fittings have a standard pitch angle of 55 degrees.

Advantages of BSPT

Because the threads are tapered, BSPT fittings form their own seal. This makes them very effective in applications where leakage is absolutely essential, such as in gas lines or high-pressure hydraulic systems. Often no additional sealant is required, but if you do, then the addition of a sealant can provide additional security.

Which better?

Whether you choose BSPP or BSPT depends largely on your specific needs. If you are looking for a system that is easy to maintain, then BSPP is the way to go. But if you need a safer connection, especially in high-pressure or high-vibration environments, BSPT fittings provide an extra level of safety.

BSP International Standards

ISO stands for International Organization for Standardization. These are the people who make sure that products and systems conform to specific standards, making it easier for companies around the world to understand what they’re buying. For now, let’s focus on the two main ISO standards for BSP fittings: ISO 7 and ISO 228.

ISO 7

ISO 7 focuses on tapered threads, such as those found in BSPT fittings. The standard defines the dimensional rules and how the taper works. Its purpose is to ensure that tapered fittings have a good seal, especially in high-pressure systems.

For example, you are installing a gas line or a high-pressure hydraulic system. You need to make sure that the fittings don’t leak. By insisting on ISO 7-compliant BSPT fittings, you are essentially ensuring a safe and reliable system.

ISO BSP standard

ISO 228

ISO 228, the standard for parallel threads in BSPP fittings, specifies dimensions, tolerances, and more. Basically, it ensures a good fit and proper functioning of parallel threaded fittings.

If you’re dealing with water or hydraulic systems that don’t require an extremely high level of leak-proof safety, then ISO 228 is the standard of choice. When you buy a fitting that complies with ISO 228, you buy reliability and performance.

Multiple Standards Compliance

Many BSP fittings are compliant with both ISO 228 and ISO 7. This means they conform to both parallel and tapered thread rules. So if you see a fitting labeled with both ISO 7 and ISO 228, it’s a double guarantee that you’re buying a quality product.

Choosing fittings that comply with international standards isn’t just about complying with the rules. In the long run, it’s about ensuring that your system is safe, efficient and economical. In addition, because standardized fittings are more widely available, it’s easier to replace or upgrade them.

BSP Fitting Benefits

Versatility

First up is versatility. One of the greatest advantages of BSP fittings is that they are suitable for a wide range of applications. From water supply systems to industrial hydraulic lines, these fittings can do it all. Whether you’re a seasoned maintenance professional or just setting up your first hydraulic system, they’re designed to meet your needs.

Specialized seals

Fractional pipe fittings are great at sealing against leaks. Both the parallel-threaded BSPP and the threaded BSPT seal well. while the BSPP typically uses adhesive seals or O-rings, the BSPT relies on its tapered threads to do the sealing job.

Durability

These fittings are extremely robust. They are designed to withstand high pressures and resist wear and tear. Their durability saves money in the long run. Quality BSP fittings may cost a little more upfront. However, when you consider their longevity and lower maintenance requirements, the overall price/performance ratio is high.

What is BSP Thread used for?

marine application hose clamps

Water Supply Systems

One of the most common uses for BSP threads is in water supply systems. These pipes carry clean water to your home or business. A BSP tapered thread ensures a secure, leak-proof connection, which is essential for a system as important as a water supply.

Hydraulic Systems

Next up is the hydraulic system. If you’re working with machinery that uses fluids to transmit power, such as excavators or hydraulic presses, imperial threads are often the preferred choice. They can withstand high pressures and provide a solid seal, making them ideal for these setups.

Gas Piping

Gas piping is another great application for inch-tapered threads. Examples include gas piping for home heating and even larger installations such as industrial gas supplies. The excellent sealing ability of the inch thread makes it a safe choice for gas applications.

Marine applications

Inch threads are also used in boats and ships, where they are commonly used in marine hydraulic systems and even bilge pumps.BSP fittings are reliable and made of high-quality materials to resist the corrosive effects of salt water.

Compatibility and Interchangeability

BSP vs JIC

BSP threads stand for British Standard Pipe and are widely recognized for their strong sealing ability. the JIC or Joint Industrial Council thread originated in the United States. These fittings usually have a 37-degree flare at the end and are specifically designed for high-pressure conditions.

BSP and JIC differ in sealing mechanisms and pitch angles; JIC uses a flared sealing surface, while BSP may use a bonded seal or o-ring. Because of these differences, they are not directly interchangeable, and you typically need an adapter to connect the BSP fitting to the JIC system.

JIC vs NPT vs BSP

BSP vs NPT

NPT, or National Pipe Thread, is widely used in the United States, especially for low-pressure applications. The threads are tapered and are usually sealed by thread engagement. BSPP, on the other hand, typically uses a bonded seal or O-ring and has parallel threads. Although the two fittings are used for similar purposes, they have different thread forms and sealing mechanisms, which means they are not directly interchangeable. If you need to switch from one system to the other, you’ll likely need an adapter to secure the connection.

How to Measure BSP Hydraulic Fittings

Prepare your tools

First, grab your calipers and thread gauge. These tools are crucial for accurate measurements.

Measure the Outside Diameter

Start by measuring the outside diameter of your male threads. Simply open the caliper and gently place it over the widest part of the thread. Make a note of this number and you can use a table to count it.

Counting Threads

Next, count the number of thread crests within a given distance (usually one inch).

Pitch Angle

For inch-threaded fittings, the standard pitch angle is 55 degrees. You may find this information in the manufacturer’s specification sheet, but you can also measure it if desired.

Parallel or tapered?

Is the fitting BSPP (parallel) or BSPT (tapered)? For BSPP, the thread diameter remains the same. With BSPT, you will notice that the diameter decreases as the threads move downward.

Check for add-ons

Some fittings may have o-rings or adhesive seals. These features also need to be taken into account when measuring, as they can affect how the fitting interacts with its mating parts.

Double-check your work

After you’ve written down all your measurements, it’s a good idea to double-check them. Mistakes can and do happen. Checking again now will save you a lot of trouble later.

G / R
size

Thread
density
(TPl)

Thread
pitch

Major
diameter

Minor
diameter

Gauge
length

In

In

mm

in

mm

in

mm

In

mm

1/6

28

0.907

0.3041

7.723

0.2583

6.561

5/32

4

1/8

28

0.907

0.3830

9.728

0.3372

8.566

5/32

4

1/4

19

1.337

0.518

13.157

0.4506

11.445

0.2367

6

3/8

19

1.337

0.656

16.662

0.5886

14.95

1/4

6.4

1/2

14

1.814

0.825

20.955

0.7335

18.631

0.3214

8.2

5/8

14

1.814

0.902

22.911

0.8105

20.587

0.3214

8.2

3/4

14

1.814

1.041

26.441

0.9495

24.117

3/8

9.5

7/8

14

1.814

1.189

30.201

1.0975

27.877

3/8

9.5

1

11

2.309

1.309

33.249

1.1926

30.291

0.4091

10.4

1 1/8

11

2.309

1.492

37.897

1.3756

34.939

0.4091

10.4

1 1/4

11

2.309

1.65

41.91

1.5335

38.952

1/2

12.7

1 3/8

11

2.309

1.745

44.323

1.6285

41.365

1/2

12.7

1 1/2

11

2.309

1.882

47.803

1.7656

44.845

1/2

12.7

1 5/8

11

2.309

2.082

52.883

1.9656

49.926

5/8

15.9

1 3/4

11

2.309

2.116

53.746

1.9995

50.788

5/8

15.9

1 7/8

11

2.309

2.244

56.998

2.1276

54.041

5/8

15.9

2

11

2.309

2.347

59.614

2.2306

56.656

11/16

15.9

BSP hydraulic fittings size chart

How to Install BSP Hydraulic Fittings

Step 1: Prepare Butt Threads

Clean any dirt, debris or old sealant from the male and female threads. A wire brush is usually sufficient. This helps ensure a good, clean fit.

Step 2: Select the correct sealing mechanism

For BSPP (parallel): Use o-rings or bonded seals.

For BSPT (tapered): thread sealant or PTFE tape works best.

Step 3: Apply Sealant

If using a thread sealant, apply a small amount of sealant evenly around the male threads, avoiding the first thread, to prevent sealant from entering the system. For O-rings, make sure they are firmly seated in the groove.

Step 4: Hand Tightening

Begin by hand tightening the fitting. Turn the fitting until you feel the threads engage firmly. This will prevent cross-threading, which can be a difficult problem to solve.

Step 5: Use a Torque Wrench

Now it’s time to use the torque wrench. Tighten the fitting to the manufacturer’s torque specifications. Over-tightening is just as bad as over-loosening, so keep it precise!

Step 6: Double Check Your Work

After tightening, check over all the components. Look for any signs of cross-threading or over-tightening that could lead to leaks or failure. Now is the time to spot problems.

fix hydraulic fitting Topa

Step 7: Test the System

Before the system is fully operational, perform a pressure test to ensure there are no leaks. If leaks are found, it may be necessary to retighten fittings or reapply sealant.

Step 8: Keep Records

Record the date of installation, torque settings, and any other pertinent information. This will make the job easier when fittings need to be inspected or replaced.

Conclusion

In the world of hydraulic systems and components, British Standard Pipe (BSP) threads stand out for their quality, reliability and versatility. Whether you’re an experienced salesperson in the hydraulics industry or a retailer trying to understand the right type of fitting, this guide will give you an insight into the benefits and applications of BSPP and BSPT threads. In addition, understanding international standards such as ISO 7 and ISO 228 will save you time and money by ensuring that the couplings you choose operate safely and efficiently. And don’t forget the meticulous steps involved in measuring and installing these fittings, which ensure that your hydraulic system operates at peak efficiency. In the future, the knowledge you’ve gained here will enable you to make smarter, more informed decisions when selecting and using fittings for fiat tubing to meet a variety of needs.

Choose Topa-BSP Hydraulic Fitting Supplier

We know you’re always looking for reliable, economical hydraulic components. That’s why we’re pleased to introduce you to Topa’s line of BSP (British Standard Pipe) fittings.

So, why should you choose our BSP fittings? Firstly, every fitting we produce meets strict international standards such as ISO 7 and ISO 228. This ensures you get a product you can trust.

Whether you need a parallel fitting (BSPP) or a tapered fitting (BSPT), we’ve got you covered. Our BSPP fittings are interchangeable with Parker hydraulic fittings, Eaton standard.

Cost matters, and we understand that. Our direct factory setup allows us to offer you great prices without sacrificing quality. We provide you with a cost-effective solution that ensures you get what you pay for.

What sets us apart is our service. Our team of 20 skilled professionals is ready to help you.

So when you think of BSP fittings, think Topa, your one-stop solution for all your hydraulic needs, with the quality and price you deserve.

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