3'' OD 1.2mm-5.0mm Thickness Inox Round Tube SUS 201 304 316 Mirror
Satin Finish 76.2mm Stainless Steel Pipe
Product Description
The description "WinscoMetal 3'' OD 1.2mm-5.0mm Thickness Inox
Round Tube SUS 201 304 316 Mirror Satin Finish 76.2mm Stainless
Steel Pipe" refers to a specific stainless steel round tube offered
by WinscoMetal. Let's break down the details:
1. WinscoMetal: This is the name of the company or brand offering
the stainless steel round tube.
2. 3'' OD: "OD" stands for outer diameter, and "3''" indicates that
the outer diameter of the tube is 3 inches. This measurement refers
to the size of the tube.
3. 1.2mm-5.0mm Thickness: This range indicates the thickness of the
tube wall, varying from 1.2 millimeters to 5.0 millimeters. The
thickness affects the strength and durability of the tube.
4. Inox Round Tube: "Inox" is a term commonly used to refer to
stainless steel. Therefore, this tube is made of stainless steel.
5. SUS 201 304 316: These are the different stainless steel grades
available for the tube. SUS 201, SUS 304, and SUS 316 represent
different compositions and properties of stainless steel. Each
grade has its own characteristics and suitability for specific
applications.
6. Mirror Satin Finish: This refers to the surface finish of the
stainless steel tube. "Mirror" finish indicates a highly reflective
and smooth surface, while "satin" finish refers to a smooth but
less reflective surface. The tube may have either of these
finishes.
7. 76.2mm Stainless Steel Pipe: This indicates that the tube is
referred to as a "pipe" and has an inner diameter of 76.2
millimeters. The term "pipe" is often used interchangeably with
"tube" in certain contexts.
What are the best practices for welding and joining techniques when
working with the 3'' OD Stainless Steel Pipe in fabrication
projects?
When working with a 3'' OD stainless steel pipe in fabrication
projects, it is important to follow best practices for welding and
joining techniques to ensure proper and reliable connections. Here
are some key considerations:
1. Material Selection and Preparation:
- Choose the appropriate stainless steel grade suitable for the
intended application. Common grades include 201, 304, and 316.
- Ensure that the pipe and any accompanying fittings or components
are clean and free from contaminants such as grease, oil, or dirt.
Use appropriate cleaning methods, such as degreasing or pickling,
if necessary.
2. Welding Method:
- TIG (Tungsten Inert Gas) welding is often preferred for stainless
steel pipe fabrication due to its ability to provide precise
control over the welding process and produce high-quality welds.
- MIG (Metal Inert Gas) welding can also be used for larger
diameter pipes or when higher welding speeds are required. However,
it may result in less control over the heat input and may require
more post-weld cleaning.
3. Joint Preparation:
- Ensure that the pipe ends are properly prepared for welding. This
typically involves removing any oxides, burrs, or contaminants from
the edges using appropriate tools such as a grinder or file.
- Beveling the pipe ends may be necessary for specific joint
configurations, such as butt joints or groove welds.
4. Welding Parameters:
- Set the appropriate welding parameters, such as current, voltage,
and travel speed, based on the specific stainless steel grade and
pipe thickness. Refer to welding procedure specifications (WPS) or
industry guidelines for recommended parameters.
- Use a suitable shielding gas, such as argon, to protect the weld
pool and prevent oxidation.
5. Welding Techniques:
- Maintain proper arc length and angle during welding to ensure
good penetration and control over the heat input.
- Employ back purging techniques, such as using a backing gas or
purge dams, to prevent oxidation and contamination on the inner
side of the pipe during welding.
6. Post-Weld Treatment:
- Perform post-weld treatments, such as pickling or passivation, to
remove heat-affected zone (HAZ) discoloration and restore the
corrosion resistance of the stainless steel.
- Inspect the welds visually and, if necessary, perform
non-destructive testing (NDT) methods such as dye penetrant testing
or radiographic examination to ensure the weld quality.
7. Welder Qualification and Certification:
- Ensure that the welders performing the fabrication work are
qualified and certified as per relevant standards or industry
requirements.
- Maintain proper documentation of the welding procedures, welder
qualifications, and inspection records.
Specifications:
| Description | Tube En Inox;Tig Welded Stainless Steel Pipe;Stainless steel tubes
for mechanical and structural purposes, 76.3mm stainless steel inox
pipe; 76mm inox tube; 3'' SS round tube pipe |
| SS Round Tube Diameter | φ15.9mm | φ17mm | φ18mm | φ19.1mm | φ20mm | φ21mm | φ22.2mm |
| φ23mm | φ25.4mm | φ28mm | φ31.8mm | φ33.7mm | φ35mm | φ38.1mm |
| φ40mm | φ41.28mm | φ42.4mm | φ44mm | φ48.3mm | φ50.8mm | φ57mm |
| φ60mm | φ63.5mm | φ73mm | φ76.2mm | φ80mm | φ85mm | φ88.9mm |
| φ101.6mm | φ104mm | φ107mm | φ114.3mm | φ127mm | φ133mm | φ141mm |
| φ159mm | φ168mm | φ178mm | φ203mm | φ219mm | φ254mm | φ273mm |
| φ306mm | φ325mm | φ356mm | φ377mm | φ406mm | φ480mm | Customized |
SS Round Pipe Diameter
| 5/8 inch | 3/4 inch | 7/8 inch | 1 inch | 1 1/8 inch | 1 1/4 inch | 1 3/8 inch |
| 1 1/2 inch | 1 5/8 inch | 1 3/4 inch | 2 inch | 2 1/4 inch | 2 1/2 inch | 3 inch |
| 3 1/2 inch | 4 inch | 4 1/8 inch | 4 1/4 inch | 4 1/2 inch | 5 inch | 5 1/4 inch |
| 6 1/4 inch | 6 5/8 inch | 8 5/8 inch | 10 3/4 inch | 12 3/4 inch | 14 inch | 16 inch |
| Material Grade | AISI201/AISI301/ SUS304/ AISI316L/ AISI410 |
| Standard | ASTM A554 / JIS G3446 / CNS 5802 / EN 10217-7 / EN 10296-2,EN
10305-2,EN 10305-5. |
| Thickness | 1.5mm,2.0mm,2.5mm,3.0mm,3.5mm,4.0mm,5.0mm,customized. |
| Section Shape | Round Shape. |
| Surface | BA/2B/NO.1/NO.3/NO.4/8K/HL/2D/1D |
| Length | 1m,2.5m,3m,5.85m,6m,6.1m,7m,length can be customized. |
| Application | Building handrail, railing, door construction,decoration,
furniture, fence, Industry, food industry for tube transfer or to
make other fittings. Commercial tubing,Instrumentation tubing,
petroleum, oil and gasboiler etc. |
How does the 76.2mm diameter of the Stainless Steel Pipe influence
its structural integrity and potential uses in industrial settings?
The 76.2mm diameter of the stainless steel pipe directly influences
its structural integrity and potential uses in industrial settings.
Here are some key considerations:
1. Strength and Load-Bearing Capacity:
- The diameter of the stainless steel pipe is an important factor
in determining its strength and load-bearing capacity. Generally, a
larger diameter pipe can withstand higher levels of internal or
external pressure and can support heavier loads compared to smaller
diameter pipes.
2. Rigidity and Stability:
- A larger diameter stainless steel pipe tends to be more rigid and
stable, providing enhanced structural integrity. This can be
beneficial in industrial settings where the pipe needs to resist
bending, deflection, or vibrations.
3. Fluid Flow:
- The diameter of the pipe affects the flow characteristics of
fluids or gases passing through it. A larger diameter pipe allows
for greater fluid flow rates and reduced pressure drop, making it
suitable for applications where efficient fluid or gas
transportation is required.
4. Compatibility with Fittings and Components:
- The 76.2mm diameter of the stainless steel pipe may have
implications for compatibility with fittings, connectors, or other
components used in industrial systems. It is important to ensure
that the selected fittings and components are designed to fit with
the specific diameter of the pipe.
5. Potential Uses:
- The 76.2mm diameter stainless steel pipe can find various uses in
industrial settings, such as:
- Fluid and gas transportation: It can be employed for pipelines in
industries like oil and gas, chemical processing, or water
treatment.
- Structural applications: The larger diameter pipe can be utilized
in structural frameworks, supports, or load-bearing structures.
- Process equipment: It can serve as a component in heat
exchangers, reactors, or other process equipment.
- Industrial plumbing and ventilation systems: The pipe can be used
for plumbing, drainage, or ventilation systems in industrial
facilities.
