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10 step block 1018 carbon steel inch version
10 Step Block Titanium (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
30_FBH_Resolution__Calibraation_block
30 FBH Resolution Block 1018 Steel (Inch Version) Geometry: Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E127. Dimensions: 11.000" x 4.000" x 1.500".
ndt_30_FBH_Resolution_Block
30 FBH Resolution Block 304 Stainless Steel (Inch Version) Geometry: Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E127. Dimensions: 11.000" x 4.000" x 1.500".
30_FBH_Resolution_Block.jpg
30 FBH Resolution Block 304 Stainless Steel (Metric Version) Geometry: • 38mm x 100mm x 280mm ,1.2mm, 2.0mm, 3.2mm FBH diameters.
non_destructive_testing_30_FBH_Resolution_Block
30 FBH Resolution Block, 1018 Steel (Metric Version) Geometry: • 38mm x 100mm x 280mm ,1.2mm, 2.0mm, 3.2mm FBH diameters.
30_FBH_Resolution__Calibraation_block
30 FBH Resolution Blocks 7075-T6 Aluminum (Inch Version) Geometry: Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E127. Dimensions: 11.000" x 4.000" x 1.500".
ASTM E317 Block Figure 1 7075-T6 Aluminum (Inch Version) Geometry: ontains two 3/64" diameter side-drilled holes.Dimensions: 3.00" x 2.00" x 1.00"
edm slot sizing block 7075 t6 aluminum
EDM Slot Sizing Block 304 Stainless Steel Geometry: contains nine EDM slots from 0.100" to 0.900" deep. Slot width is 0.011". Nominal depth is laser engraved on the side of the block. Dimensions: 1.000" x 1.000" x 10.000".
eddy current tube standard iris
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,
paut iiw iso 19675 block 1018 steel metric version ndt paut calibration block
PAUT IIW ISO 19675 Block 304 Stainless Steel (Metric Version) Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
paut iiw iso 19675 block 1018 steel metric version ndt paut calibration block
PAUT IIW ISO 19675 Block 7075-T6 Aluminum (Metric Version) Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
paut iiw iso 19675 block 1018 steel metric version ndt paut calibration block
PAUT IIW ISO 19675 Block 1018 Steel (Metric Version) Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
10 step block 1018 carbon steel inch version
10 Step, Block, Titanium, (Metric 10B) (7018)

10 Step Block Titanium (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 Titanium (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
30_FBH_Resolution__Calibraation_block
30 FBH Resolution Block 1018 Steel (Inch Version) (7021)

30 FBH Resolution Block 1018 Steel (Inch Version)

Used for determining resolution and sensitivity capabilities and for producing area amplitude and distance amplitude plots for normal beam transducers. Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E428.
• Dimensions: 11.000" x 4.000" x 1.500"
• Made from 1018 Steel (Inch Version)
30 FBH Resolution Block 1018 Steel (Inch Version) Geometry: Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E127. Dimensions: 11.000" x 4.000" x 1.500".
ndt_30_FBH_Resolution_Block
30 FBH Resolution Block 304 Stainless Steel (Inch Version) (7023)

30 FBH Resolution Block 304 Stainless Steel (Inch Version)

Used for determining resolution and sensitivity capabilities and for producing area amplitude and distance amplitude plots for normal beam transducers. Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E428.
• Dimensions: 11.000" x 4.000" x 1.500"
• Made from Type 304 stainless steel.
30 FBH Resolution Block 304 Stainless Steel (Inch Version) Geometry: Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E127. Dimensions: 11.000" x 4.000" x 1.500".
30_FBH_Resolution_Block.jpg
30 FBH Resolution Block 304 Stainless Steel (Metric Version) (7024)

30 FBH Resolution Block 304 Stainless Steel (Metric Version)

Used for determining resolution and sensitivity capabilities and for producing area amplitude and distance amplitude plots for normal beam transducers. In accordance with ASTM E428.
• Metric version
• 38mm x 100mm x 280mm
• 1.2mm, 2.0mm, 3.2mm FBH diameters
• Made from Type 304 Stainless Steel.
30 FBH Resolution Block 304 Stainless Steel (Metric Version) Geometry: • 38mm x 100mm x 280mm ,1.2mm, 2.0mm, 3.2mm FBH diameters.
non_destructive_testing_30_FBH_Resolution_Block
30 FBH Resolution Block, 1018 Steel (Metric Version) (7022)

30 FBH Resolution Block, 1018 Steel (Metric Version)

Used for determining resolution and sensitivity capabilities and for producing area amplitude and distance amplitude plots for normal beam transducers. In accordance with ASTM E428.
• Metric version
• 38mm x 100mm x 280mm
• 1.2mm, 2.0mm, 3.2mm FBH diameters
• Made from 1018 Steel (Metric Version)
30 FBH Resolution Block, 1018 Steel (Metric Version) Geometry: • 38mm x 100mm x 280mm ,1.2mm, 2.0mm, 3.2mm FBH diameters.
30_FBH_Resolution__Calibraation_block
30 FBH Resolution Blocks 7075-T6 Aluminum (Inch Version) (7025)

30 FBH Resolution Blocks 7075-T6 Aluminum (Inch Version)

Used for determining resolution and sensitivity capabilities and for producing area amplitude and distance amplitude plots for normal beam transducers. Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E127.
• Dimensions: 11.000" x 4.000" x 1.500"
• Made from 7075-T6 aluminum, (Inch Version)
30 FBH Resolution Blocks 7075-T6 Aluminum (Inch Version) Geometry: Contains ten flat-bottom holes at 3/64” diameter, ten at 5/64”, and ten at 8/64”. Metal travel distances range from .050” to 1.250”. In accordance with ASTM E127. Dimensions: 11.000" x 4.000" x 1.500".
ASTM E317, Block, Figure 1, 7075-T6 Aluminum (Inch Version) (7103)

ASTM E317 Block Figure 1 7075-T6 Aluminum (Inch Version)

Geometry: ontains two 3/64" diameter side-drilled holes.Dimensions: 3.00" x 2.00" x 1.00"
In accordance with ASTM E317 Figure 1.
ASTM E317 horizontal and vertical linearity block, Figure 1 is used for evaluating the horizontal and vertical linearity characteristics of ultrasonic pulse-echo systems.
ASTM E317 Block Figure 1 7075-T6 Aluminum (Inch Version) Geometry: ontains two 3/64" diameter side-drilled holes.Dimensions: 3.00" x 2.00" x 1.00"
edm slot sizing block 7075 t6 aluminum
EDM Slot Sizing, Block, 304 Stainless Steel (7152)

EDM Slot Sizing Block 304 Stainless Steel

Geometry: contains nine EDM slots from 0.100" to 0.900" deep. Slot width is 0.011". Nominal depth is laser engraved on the side of the block.
Dimensions: 1.000" x 1.000" x 10.000".
EDM Slot Sizing Block 304 Stainless Steel Geometry: contains nine EDM slots from 0.100" to 0.900" deep. Slot width is 0.011". Nominal depth is laser engraved on the side of the block. Dimensions: 1.000" x 1.000" x 10.000".
eddy current tube standard iris
Internal Rotary Inspection System Tube

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.

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,
paut iiw iso 19675 block 1018 steel metric version ndt paut calibration block
PAUT IIW ISO 19675 Block, 304 Stainless Steel (Metric Version) (7416)

PAUT IIW ISO 19675 Block 304 Stainless Steel (Metric Version)

Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii
The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
PAUT IIW ISO 19675 Block 304 Stainless Steel (Metric Version) Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
paut iiw iso 19675 block 1018 steel metric version ndt paut calibration block
PAUT IIW ISO 19675, Block 7075-T6 Aluminum (Metric Version) (7417)

PAUT IIW ISO 19675 Block 7075-T6 Aluminum (Metric Version)

Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii
The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
PAUT IIW ISO 19675 Block 7075-T6 Aluminum (Metric Version) Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
paut iiw iso 19675 block 1018 steel metric version ndt paut calibration block
PAUT IIW, ISO 19675, Block, 1018 Steel (Metric Version) NDT PAUT Calibration Block (7415)

PAUT IIW ISO 19675 Block 1018 Steel (Metric Version)

Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii
The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
PAUT IIW ISO 19675 Block 1018 Steel (Metric Version) Geometry:25mm wide x 100mm tall x 300mm long, with 100mm and 50mm radii The PAUT IIW Block, made in accordance with ISO 19675 was designed by an international committee of NDT experts with the express purpose of creating a globally accepted, standardized block for Phased Array Ultrasonic calibrations. Before the development of this spec, there were no international standards describing a specific block for calibrating PAUT systems.
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