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1 Products availableLeading Manufacturer, Supplier & Retailer of EDDY CURRENT TUBE, Internal Rotary Inspection System Tube and Drilled Hole Sizing Block.
Calibration Standards for tube inspections
Our experience in dealing with all simulated flaws from EDMs notches to thinning and expansions puts us in a unique position to recommend proceduresand implement standards that increase your probability of detection duringinspectionof plants worldwide.A large list of tubing as per ASME standards are available. Also, we can develop customized solutions that meet the specific needs of our customers.Whether you need tube supports, uncommon flaws or specialized packaging for the standards, NDE can support.Wespecialize in custom eddy current tubes,
And have years of experience in machining a huge range of defects. From TWHs and FBHs, OD and ID grooves, milled flats, and OD andID thinning bands, to ID FBHs, RBHs, ID contoured flats, 120/180 wear scars, tapered flaws, and tube-to-tube wear,
Corrosion, Erosion, UT Thickness Training & Certification Plates. Corrosion/Erosion and Pitting Specimens Pipe Pipe Dimensions: OD 8 with length 300mm Thickness 25 mm Stainless Steel Corrosion/Erosion defects were placed randomly on the specimens. Some of specimens will have naturally obtained corrosions/erosions recorded depth of the corrosion indications will be based on the deepest spot within the field of corrosion. The host side of the Pipe will be covered with a removable cover plate.
Internal Rotary Inspection System Tube Eddy Current Tube Standards. Ready to request a quote for a standard? Here's what we need. What is the material? (Alloy, OD and Wall) Is NDE supplying the material or will it be customer supplied? What defects are needed and what size? (most depths are given in % of tube wall) Is there a specification the standard needs to comply with? (ASME, etc.) If you have a drawing, or even a simple hand sketch, please send that along as well. We specialize in custom eddy current tubes, and have years of experience in machining a huge range of defects. From TWHs and FBHs, OD and ID grooves, milled flats, and OD and ID thinning bands, to ID FBHs, ID contoured flats, 120/180 wearscars, tapered flaws, and tube-to-tube wear,
Application |
Description |
IRIS |
Comments |
Heat Exchangers |
Nonferromagnetic material Stainless steel, Cu/Ali |
X |
– ECT is the recommended choice for its speed and accuracy.- IRIS can sometimes be used to confirm the sizing of ID defects. |
Mildly ferromagnetic material Duplex steel, SS439, Secure, Monel |
X |
– ECT is used only for thin tubes (<1.6 mm) with saturation probes.- For thicker walls, it is better to use RFT or MFL.- IRIS can sometimes be used to confirm the sizing of defects. |
|
Ferromagnetic material Carbon steel, nickel. Typical defects are pitting and corrosion. |
X |
– RFT, MFL, and IRIS are good, and most of the time complementary. |
|
Air Coolers |
Carbon steel tube with aluminum fins Typical defects are ID pitting and OD wear close to the water box. |
X |
– RFT is not effective because the fins disturb the remote field.- MFL is quick and sensitive but does not allow sizing.- IRIS is often used to back up MFL but has difficulty with OD flaws. |
Boilers |
Carbon steel tube Typical defects are pitting, wear, and cracking at the tube sheet. |
X |
– RFT is good for wear detection and can easily pass the bend.- MFL is good only on straight boiler tubes without swages.- IRIS is good for wear and pits but has no sensitivity in the bend. |
Magnetic Flux Leakage Tube Eddy Current Tube Standards. Ready to request a quote for a standard? Here's what we need. What is the material? (Alloy, OD and Wall) Is NDE supplying the material or will it be customer supplied? What defects are needed and what size? (most depths are given in % of tube wall) Is there a specification the standard needs to comply with? (ASME, etc.) If you have a drawing, or even a simple hand sketch, please send that along as well. We specialize in custom eddy current tubes, and have years of experience in machining a huge range of defects. From TWHs and FBHs, OD and ID grooves, milled flats, and OD and ID thinning bands, to ID FBHs, ID contoured flats, 120/180 wearscars, tapered flaws, and tube-to-tube wear,
Application |
Description |
MFL |
Comments |
Heat Exchangers |
|||
Mildly ferromagnetic material Duplex steel, SS439, Secure, Monel |
X |
– ECT is used only for thin tubes (<1.6 mm) with saturation probes.- For thicker walls, it is better to use RFT or MFL.- IRIS can sometimes be used to confirm the sizing of defects. |
|
Ferromagnetic material Carbon steel, nickel. Typical defects are pitting and corrosion. |
X |
– RFT, MFL, and IRIS are good, and most of the time complementary. |
|
Air Coolers |
Carbon steel tube with aluminum fins Typical defects are ID pitting and OD wear close to the water box. |
X |
– RFT is not effective because the fins disturb the remote field.- MFL is quick and sensitive but does not allow sizing.- IRIS is often used to back up MFL but has difficulty with OD flaws. |
Boilers |
Carbon steel tube Typical defects are pitting, wear, and cracking at the tube sheet. |
X |
– RFT is good for wear detection and can easily pass the bend.- MFL is good only on straight boiler tubes without swages.- IRIS is good for wear and pits but has no sensitivity in the bend. |
Eddy Current Tube Standards. Ready to request a quote for a standard? Here's what we need. What is the material? (Alloy, ODandWall) Is NDE supplying the material or will it be customer supplied? What defects are needed and what size? (most depths are given in % of tube wall) Is there a specification the standard needs to comply with? (ASME, etc.) If you have adrawing, or even a simple hand sketch, please send that along as well. We specialize in custom eddy currenttubes, and have years of experience in machining a huge range of defects. From TWHs and FBHs, OD and ID grooves, milled flats, and OD and ID thinning bands, to ID FBHs, ID contoured flats, 120/180wearscars, tapered flaws, and tube-to-tube wear,
Remote Field Testing TubeRemote Field Testing Tube Eddy Current Tube Standards. Ready to request a quote for a standard? Here's what we need. What is the material? (Alloy, OD and Wall) Is NDE supplying the material or will it be customer supplied? What defects are needed and what size? (most depths are given in % of tube wall) Is there a specification the standard needs to comply with? (ASME, etc.) If you have a drawing, or even a simple hand sketch, please send that along as well. We specialize in custom eddy current tubes, and have years of experience in machining a huge range of defects. From TWHs and FBHs, OD and ID grooves, milled flats, and OD and ID thinning bands, to ID FBHs, ID contoured flats, 120/180 wearscars, tapered flaws, and tube-to-tube wear,
Application |
Description |
RFT |
Comments |
Heat Exchangers |
|||
Mildly ferromagnetic material Duplex steel, SS439, Secure, Monel |
X |
– ECT is used only for thin tubes (<1.6 mm) with saturation probes.- For thicker walls, it is better to use RFT or MFL.- IRIS can sometimes be used to confirm the sizing of defects. | |
Ferromagnetic material Carbon steel, nickel. Typical defectsare pitting and corrosion. |
X |
– RFT, MFL, and IRIS are good, and most of the time complementary. | |
Boilers |
Carbon steel tube Typical defects are pitting, wear, and cracking at the tube sheet. |
X |
– RFT is good for wear detection and can easily pass the bend.- MFL is good only on straight boiler tubes without swages.- IRIS is good for wear and pits but has no sensitivity in the bend. |
Buried Pipes |
Carbon steel or cast iron pipes Typical defects are pitting and general corrosion. |
X |
– RFT is the only effective technique because it does not require cleaning, and it can easily negotiate elbows. However, sensitivity to |
ASTM Test block ASTM test block is also known as MPT test bar used in Magnetic particle inspection. It has 7 numbers of artificial flaws(side drilled holes). Easy to carry on site. Pocket friendly.
Ketos Ring The Ketos Ring is used to check overall performance of the magnetic particle examination system. The Ketos Ring is 5" in diameter and .875" thick, with a 1" diameter center hole. The block includes (12) thru-holes at .070" diameter and distances of .070, .140, .210, .280, .350, .420, .490, .560, .630, .700, .770, and .840" from the OD surface.
Mpi Weight Lift block (18.0kg) AC yokes 4.5Kg with Carrying Handle. Permanent Magnet Test Weight 18Kg with Carrying Handle American Standard 22.5Kg
Lift Test Weights
The weights are required to test the magnetic field produced by Electro-Magnets and Permanent Magnets to ensure parts are being sufficiently inspected when using MPI methods of NDT
Electromagnetic Yoke Test Weight for use with AC yokes 4.5Kg with Carrying Handle.
Permanent Magnet Test Weight 18Kg with Carrying Handle
American Standard 22.5Kg
10 Step Block 1018 Carbon Steel 2-20 mm (Metric 10A) 10 Step Calibration Block Metric 1 Type: The Metric 10A- 10 Step Calibration Block has steps starting at 2.0mm to 20.0mm in 2.0mm increments. Metric Step Face: 20mm x 20mm
10 Step Block 304 Stainless Steel (Metric 10B) 10 Step Calibration Block The Metric 10B 10 Step Calibration Block has steps starting at 2.5mm to 25.0mm in 2.5mm increments. Metric Step Face: 20mm x 20mm
10 Step Block, 1018 Carbon Steel 2.5-25 mm (Metric 10B)) 10 Step Calibration Block The Metric 10B 10 Step Calibration Block has steps starting at 2.5mm to 25.0mm in 2.5mm increments. Metric Step Face: 20mm x 20mm
4 Step Block 304 Stainless Steel Block 4-Step Calibration Block for thickness and linearity calibration Inch Version: 0.750" square with thicknesses of steps at .250", .500", .750" and 1.000". Metric Versions: Metric 4A (6.25, 12.5, 18.75 and 25 mm) Metric 4B (5.0, 10.0, 15.0 and 20 mm) Step Face: 3/4" x 3/4"-Spec: ASTM E797
ASME Basic Cal Block, ", 7075-T6 Aluminumm Geometry: contains three side-drilled holes at 1.5" deep minimum at 3/32" diameter. Hole locations through the thickness are , , and T. Also contains two EDM notches measuring 2%T deep x 1/4" max wide x 1.0" long min. In accordance with ASME Sec V Art. 4 Fig. T-434.2.1.
ASME N-625 Reference Plate 1018 Steel (Metric Version) Geometry: Contains six flat-bottom holes. Also contains the calibration notch.
ASME N-625 Reference, Plate 304 Stainless Steel (Inch Version) ASME N-625 Reference Plate Geometry: Contains six flat-bottom holes: three 4/64 diameter, one each at depths of .050, .250, and .500; one 4/64 diameter at 1.500 deep; one 8/64 diameter at 1.625 deep; and one 16/64 diameter at 1.750 deep. Also contains the calibration notch.
Drilled Hole Sizing Block 1018 Steel Geometry: block contains (9) 1/16" diameter thru-holes located from 0.100" to 0.900" from the scanning surface.Dimensions: 1.000" x 1.000" x 10.000"