Connection Type
What are the benefits of using DIN 2618 saddle in my pipeline system?
Using saddles in a pipeline system comes with several benefits:
How do I install DIN 2618 branch saddle, and are any special tools required?
The installation process for DIN 2618 branch saddle begins with preparing the pipe surface and branch connection. Once they are properly cleaned and aligned, place the saddle on the pipe. Now align the branch opening with the desired location. Use a wrench to tighten the bolts evenly and ensure a secure fit.
What are the key factors that impact the price of DIN 2618 butt weld saddle?
You can directly consult Schulzmaan, a reputed manufacturer for accurate pricing information.
Table of content
DIN 2618 Saddle
Size
SCH
ASTM
ASME
Addiction Information
Connection Type
Applications
Delivery Time
DIN 2618 Branch Saddle Specification
Specifications | DIN 2618 Saddle |
---|---|
Types Of Schedule | SCH 5S To SCH XXS |
Joint Type | Seamless / Butt-Weld/ Welded/ Fabricated |
Size | BW (Buttweld) 1½" NB to 80" NB SMLS (Seamless) 4” to 24” Weld (Welded) 2” to 36” |
Available Coating | Oil Black Paint Yellow Transparent Anti-rust Paint Zinc Plated Cold and Hot Dip Galvanized |
Description | Price In US ($) |
---|---|
030 WELDING SADDLE DIN2618 - Short | US $163.79 |
043 WELDING SADDLE DIN2618 - Short | US $132.68 |
037 WELDING SADDLE DIN2618 - Short | US $122.85 |
037 WELDING SADDLE DIN2618 - Short | US $122.85 |
090 WELDING SADDLE DIN2618 - Short | US $214.57 |
Types Of DIN 2618 Butt Welding Steel Fittings
Din 2618 Stainless Steel Branch Saddles
Saddle Din 2618
Din 2618 Branch Saddles
Din 2618 Butt Welding Steel Fittings
DIN 2618 Carbon Steel Pipe Saddle
DIN 2618 Butt Weld Saddle
DIN 2618 Welded Saddle
Din 2618 Branch Saddle Short Version
DIN 2618 Seamless Saddle
DIN 2618 Stainless Steel Branch Saddles Weight Chart
DIN 28011 Saddle welded Dimensions
dimensions (d x s) | height h(ca.) | weight in kilogram |
Metric dimensions | ||
18,0 x 1,5 | 30 | 0,02 |
23,0 x 1,5 | 30 | 0,03 |
28,0 x 1,5 | 30 | 0,04 |
38,0 x 2,0 | 35 | 0,08 |
44,0 x 2,0 | 40 | 0,12 |
54,0 x 2,0 | 45 | 0,17 |
70,0 x 2,0 | 50 | 0,26 |
84,0 x 2,0 | 60 | 0,38 |
104,0 x 2,0 | 65 | 0,58 |
106,0 x 3,0 | 65 | 0,86 |
129,0 x 2,0 | 85 | 0,85 |
133,0 x 3,0 | 85 | 1,25 |
154,0 x 2,0 | 100 | 1,20 |
156,0 x 3,0 | 100 | 1,80 |
206,0 x 3,0 | 135 | 3,05 |
What are the testing requirements for DIN 2618 welded saddle?
DIN 2618 welded saddle has specific testing requirements to ensure its quality and performance. These include visual inspections, dimensional checks and non-destructive tests. Mechanical tests may also be conducted if required. These tests aim to verify the structural integrity, dimensional accuracy and compliance of the saddle with industry standards.
How does the wall thickness of a DIN 2618 branch saddle short version affect its performance?
The wall thickness of a DIN 2618 branch saddle short version directly influences its performance. A thicker wall will enhance its strength & durability and allow it to withstand higher pressures and stresses. The saddle provides better resistance to external forces and minimizes the risk of deformation or failure.
What is the maximum temperature limit for DIN 2618 seamless saddle based on the size and schedule?
Higher schedules or thicker walls of DIN 2618 seamless saddle generally have higher temperature limits. For accurate information, you can consult the manufacturer's specifications or relevant industry standards.