Description:
Latest Anti-Corrosion Technology pipe clamps by Stauff are developed according to DIN 3015 standards. Similar to standard pipe clamps, the main usage of ACT clamps is providing structural support by reducing vibration and noise throughout systems. The ACT clamps are most suitable for systems stationed under harsh conditions such as sub-sea, top-side, oil rigs etc. It can prevent pitting corrosion on stainless steel pipes and tubing. With the integrated anti-corrosion elastomer strips, the accumulation of seawater between clamp shell and pipe can be avoided. Several tests and such as salt-spray tests according ASTM B117 and long-term field test have been conducted for approval. |
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Having difficulties looking for Stauff ACT Clamps? We can help you because we have all sizes.
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Product Information of Staff ACT Clamps
1. Specifications:
Stauff ACT clamps are design based on Stauff Clamps following DIN 3015, Standard Series and Twin Series. It covers most of the metric and imperial pipe size from diameter of 6MM to 42MM (from 1/4" to 1 1/2"). ACT clamps are efficient in preventing crevice corrosion on stainless steel pipework under sea environment, which makes it suitable for offshore oil and gas exploration and processing. These are most suited for usage in severe environments such as subsea, top-side, and oil rigs. ACT clamps offers time reduction in installation progress and cost savings in long term due to extended service intervals. Available in Standard Series and Twin Series, the material of clamp body is made of flame-retardant PPV0 plastic, which tested and V0 classified according to UL 94. The anti-corrosion elastomer strips and drainage channels inside clamp body avoid the accumulation of seawater between the clamp body and tube. The clamp body also have high UV stability to provide better resistant against rain, seawater and oil. |
2. Material:
ACT clamps are made of the materials that are chosen in compliance with section 7.3 (Tubing Installation) of the Norwegian Offshore Norzok Z-010 Standards, API RP 552, standard tubing installation and NACE SP 0108-2008 norms.
The ACT clamp body is made of flame-retardant PPV0 plastic and is suitable for continuous exposure to temperatures from -25°C to +80°C (from -13°F to +176°F). The clamp body is made up of integrated anti-corrosion elastomer strips that prevent seawater from accumulating between the clamp body and the pipe. The dynamics of these strips generate drainage channels that help in water distribution. This innovative ACT clamp design saves time during installation and money in the long run owing to extended service intervals.
The ACT clamp body design covers the most commonly used metric and imperial pipe diameters from 6mm to 25.4mm, which range from 1/4" to 1”. Variety of pipe diameter is available upon request. Meanwhile, there is a wider size range of polypropylene or polyamide material from 6mm to 406mm.
Most accessories compatible for ACT clamps are usually available in stainless steel V4A including cover plate, weld plate and hexagon head bolts.
ACT clamps are made of the materials that are chosen in compliance with section 7.3 (Tubing Installation) of the Norwegian Offshore Norzok Z-010 Standards, API RP 552, standard tubing installation and NACE SP 0108-2008 norms.
The ACT clamp body is made of flame-retardant PPV0 plastic and is suitable for continuous exposure to temperatures from -25°C to +80°C (from -13°F to +176°F). The clamp body is made up of integrated anti-corrosion elastomer strips that prevent seawater from accumulating between the clamp body and the pipe. The dynamics of these strips generate drainage channels that help in water distribution. This innovative ACT clamp design saves time during installation and money in the long run owing to extended service intervals.
The ACT clamp body design covers the most commonly used metric and imperial pipe diameters from 6mm to 25.4mm, which range from 1/4" to 1”. Variety of pipe diameter is available upon request. Meanwhile, there is a wider size range of polypropylene or polyamide material from 6mm to 406mm.
Most accessories compatible for ACT clamps are usually available in stainless steel V4A including cover plate, weld plate and hexagon head bolts.
3. Causes of the Corrosion on Pipes:
Corrosion of installed stainless steel pipes can be caused by a variety of reasons. For instance, the presence of chlorides ion (eg. sodium chlorides) in seawater coupled with high temperatures can result in the formation of small pits around metal surfaces especially stainless steel. These pits are the result of early corrosion, which eventually leads to the formation of small holes on the surface areas of metal. These tiny holes get larger gradually day by day, causing damage to the tube walls without leaving any visible indications on the outside. As the pits become deeper, they may be observed by visual inspection without any aided tool.
Furthermore, Crevice Corrosion is another cause that results in the corrosion of stainless steel pipes. When the working fluid in the environment is restricted to a specific location, crevice corrosion occurs. It's worth mentioning that stainless steel can only be anti-corrosive if it's coated with an ultrathin protective oxide coating. Nevertheless, there are occurrences where these ultrathin protective oxide coatings are broken down, resulting in the formation of fissures during time. Crevice corrosion may be hazardous to the environment as it permits extremely combustible chemicals and liquids to escape.
Crevice corrosion is often caused by changes in the local chemistry inside the protected region, which is always associated with a stagnant solution at the micro-environmental level:
Corrosion of installed stainless steel pipes can be caused by a variety of reasons. For instance, the presence of chlorides ion (eg. sodium chlorides) in seawater coupled with high temperatures can result in the formation of small pits around metal surfaces especially stainless steel. These pits are the result of early corrosion, which eventually leads to the formation of small holes on the surface areas of metal. These tiny holes get larger gradually day by day, causing damage to the tube walls without leaving any visible indications on the outside. As the pits become deeper, they may be observed by visual inspection without any aided tool.
Furthermore, Crevice Corrosion is another cause that results in the corrosion of stainless steel pipes. When the working fluid in the environment is restricted to a specific location, crevice corrosion occurs. It's worth mentioning that stainless steel can only be anti-corrosive if it's coated with an ultrathin protective oxide coating. Nevertheless, there are occurrences where these ultrathin protective oxide coatings are broken down, resulting in the formation of fissures during time. Crevice corrosion may be hazardous to the environment as it permits extremely combustible chemicals and liquids to escape.
Crevice corrosion is often caused by changes in the local chemistry inside the protected region, which is always associated with a stagnant solution at the micro-environmental level:
- A change to acidic conditions.
- Seawater that has been trapped turns stagnant.
- Oxygen and inhibitor depletion.
- Occurrence of a buildup of reactive ions divisions such as sodium chloride in seawater.
- Accelerated corrosion process.
4. Ways of Using Anti-Corrosion Technology Clamps Safely:
Maintaining a clamp helps it to be reliable and efficient for an extended time. As a result, maintenance should be prioritized. Cleaning dirt from the surface of clamps after usage is one method of extending clamps' lifespan. To avoid corrosion from salty seawater, use an anti-corrosive clamp material for clamps installed under water. Next, another priority is storage. Please ensure that the anti-corrosion technology clamps are securely stored in a dry environment, such as a shelf, workshop, or garage. This will keep all particles which are water, grease, oil away from the clamps. |
5. Configuration:
Stauff clamps are available in a variety of configurations that include the following assembly components:
i. Standard Series:
ii. Twin Series:
Different type of assembly will be as follow:
Different types of assembly are available to suit different installation versions. Recommended to mark the location for alignment of weld plate during weld plates installation. Next, push in the bottom half of the clamp, install tubing, mount top half of the clamp together with cover plate and bolts. To avoid damaging of clamp body, welding the weld plates before mounting of clamp body is recommended.
During the installation of the clamp's complete set, the first step is to push the bottom half of the clamp inward. After that, installing the tubes . Next , connect the top half of the clamp to the bottom half pushed inward and seal with the bolts or cover plates. To avoid damaging the clamp body, welding the weld plates before mounting the clamp body is recommended.
The stacking clamp design enables for more installation flexibility. The use of a specially designed safety locking plate (SIG) and stacking bolt (AF) allows multiple clamp bodies of the same size to be mounted directly on top of one another. The designer and the layout or design of the piping system benefit from the freedom to conserve some space in between.
Stauff clamps are available in a variety of configurations that include the following assembly components:
i. Standard Series:
- Single weld plate (SP), Cover plate (DP), and hexagon head bolts (AS)
- Safety locking plate and stacking bolts
- Cover plate (DP), hammerhead bolts (HKS) and self-locking nuts (MUS-HKS)
ii. Twin Series:
- Single weld plate (SP), Cover plate (GD), and hexagon head bolts (AS)
- Safety locking plate and stacking bolts
- Cover plate (GD), hammerhead bolts (HKS) and self-locking nuts (MUS-HKS)
Different type of assembly will be as follow:
- Cover plate (DP), single weld plate and hexagon head bolts
- Safety locking plate and stacking bolts
- Cover plate (DP), channel rail adaptors and hexagon head bolts
- Cover plate (DP), hammerhead bolts and self-locking nuts
- Cover plate (GD), single weld plate and hexagon head bolts
- Cover plate (GD), hammerhead bolts and self-locking nuts
Different types of assembly are available to suit different installation versions. Recommended to mark the location for alignment of weld plate during weld plates installation. Next, push in the bottom half of the clamp, install tubing, mount top half of the clamp together with cover plate and bolts. To avoid damaging of clamp body, welding the weld plates before mounting of clamp body is recommended.
During the installation of the clamp's complete set, the first step is to push the bottom half of the clamp inward. After that, installing the tubes . Next , connect the top half of the clamp to the bottom half pushed inward and seal with the bolts or cover plates. To avoid damaging the clamp body, welding the weld plates before mounting the clamp body is recommended.
The stacking clamp design enables for more installation flexibility. The use of a specially designed safety locking plate (SIG) and stacking bolt (AF) allows multiple clamp bodies of the same size to be mounted directly on top of one another. The designer and the layout or design of the piping system benefit from the freedom to conserve some space in between.
6. Recommended Distance Between Clamps:
The following table has shown the recommended distance between clamps:
The following table has shown the recommended distance between clamps:
PIPE - O.D. [MM] |
DISTANCE [M] |
6.0 - 12.7 |
1.0 |
12.7 - 22.0 |
1.2 |
22.0 - 32.0 |
1.5 |
32.0 - 38.0 |
2.0 |
38.0 - 42.0 |
2.7 |
For more information about Stauff, please refer to de.wikipedia.org/wiki/Stauff_(Unternehmen). Kindly use a translation software for your preferred language in order to understand the provided information.
Product Catalogue in pdf:
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Product Literature in pdf:
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FAQ of Staff ACT Clamps
What are the series and sizes of ACT clamps available?
The ACT clamp series is divided into two versions: standard series (6 mm to 25.4 mm) and twin series (6 mm to 25.4 mm).
Is heavy series available for ACT?
No. It is only available in standard and twin series.
What are the temperature range suit for ACT?
It can withstand temperatures ranging from -25°C to 80°C (-13°F to +176°F) for extended periods of time.
What are the functions of ACT?
ACT provides structural support to structures by minimizing vibrations and noise. They also protect stainless steel tubes from pit corrosion.
What are the materials to make of ACT?
ACT clamp body is made of fire, rain, oil and seawater resistant PPV0 plastic material that is tested and classified as V0 according to UL94. Additionally, the body consists of integrated anti-corrosion elastomer strips that prevent the accumulation of sea water between the pipe and the clamp body.
What is the purpose of anti-corrosion elastomer strips?
The dynamics of anti-corrosion elastomer strips create drainage channels to aid dispersal of water.
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