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Results found for “Manual setting and NC programming is needless torture for machine operators…”
A-5000-7795 - M4 Ø8 mm ruby ball, ceramic stem, L 50 mm, EWL 50 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0068 - M3 Ø4 mm ruby ball, ceramic stem, L 50 mm, EWL 46 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0236 - M4 Ø5 mm ruby ball, ceramic stem, L 75 mm, EWL 58.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0470 - M2 Ø6 mm ruby ball, ceramic stem, L 50 mm, EWL 50 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-2764 - M4 Ø6 mm ruby ball, ceramic stem, L 75 mm, EWL 63.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5004-0154 - M3 Ø4 mm ruby ball, ceramic stem, L 40 mm, EWL 32.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5004-3646 - M3 Ø2 mm ruby ball, ceramic stem, L 40 mm, EWL 32.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5004-6040 - M3 Ø3 mm ruby ball, ceramic stem, L 40 mm, EWL 32.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5000-7796 - M4 Ø8 mm ruby ball, ceramic stem, L 100 mm, EWL 100 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5000-8156 - M4 Ø6 mm ruby ball, ceramic stem, L 150 mm, EWL 135 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5000-9761 - M4 Ø5 mm ruby ball, ceramic stem, L 100 mm, EWL 83.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0066 - M2 Ø5 mm ruby ball, ceramic stem, L 50 mm, EWL 50 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0067 - M3 Ø3 mm ruby ball, ceramic stem, L 50 mm, EWL 43.7 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0069 - M3 Ø5 mm ruby ball, ceramic stem, L 50 mm, EWL 50 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0233 - M4 Ø4 mm ruby ball, ceramic stem, L 50 mm, EWL 33.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-0235 - M4 Ø5 mm ruby ball, ceramic stem, L 50 mm, EWL 33.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-1370 - M2 Ø4 mm ruby ball, ceramic stem, L 30 mm, EWL 30 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-4177 - M2 Ø3 mm ruby ball, ceramic stem, L 30 mm, EWL 27 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-4779 - M2 Ø5 mm ruby ball, ceramic stem, L 30 mm, EWL 30 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-4780 - M2 Ø6 mm ruby ball, ceramic stem, L 30 mm, EWL 30 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5003-4802 - M4 Ø8 mm ruby ball, ceramic stem, L 75 mm, EWL 75 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5004-6735 - M3 Ø5 mm ruby ball, ceramic stem, L 40 mm, EWL 40 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
A-5004-2545 - M3 Ø2.5 mm ruby ball, ceramic stem, L 40 mm, EWL 32.5 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible.
Lasing Microsystem S.A. establish relationship with Renishaw as a solution provider for high accuracy and position checking applications
Gonzalo Guadaño is the Director of Laser Systems Development at Lasing Microsystem S.
Renishaw's inVia is used at the University of Duisburg, in Germany, to study two-dimensional materials
The Department of Experimental Physics at the University of Duisburg in Germany uses Renishaw’s inVia confocal Raman microscope to study two dimensional materials such as graphene and molybdenum disulphide.
Interferometric laser encoders
Renishaw provides high performance interferometric laser encoders solutions for OEM machine builders, ranging from large aerospace centres through to the high precision semiconductor industry.
PHS1 warnings
PHS1 warnings NOTE: The PHS1 servo positioning head contains pre-loaded spring elements which can be dangerous if any attempt is made to disassemble the head.
PHS1 warnings
PHS1 warnings NOTE: The PHS1 servo positioning head contains pre-loaded spring elements which can be dangerous if any attempt is made to disassemble the head.
A-5991-0005 - OMM-2C optical machine module (air blast)
A-5991-0005 OMM-2C optical machine module (air blast) OMM-2C optical machine module (integrated air blast) with 7-way socket and product support card.
Manufacturing
The new facility at Stonehouse has enabled Renishaw's Manufacturing Services Division (MSD) to plan the layout of the Group's piece part manufacturing operations within the 80,000 ft sq of factory space.
Customer investment in alignment laser improves efficiency by 50%
The commercial success of building custom-made machine tools requires careful attention and efficiency.
Probing basics - Benefits of automated broken tool detection
Identifying broken tools during the machining process is crucial to avoid excessive rework and the scrapping of components.
R-AH-2545-6 - Ø25.4 mm × 45.0 mm Polyoxymethylene (POM) adjustable height stand with M6 thread
This Polyoxymethylene (POM) adjustable height stand is ideal for holding components at variable heights without marking their surface.
REVO valve seat and guide measurement
REVO® and Renishaw's 5-axis technology dramatically increase throughput in this challenging application – data collection process takes approximately 20 seconds.
From summer intern to UK Service and Support Manager: The route to expertise
By working for Renishaw, you will be making a difference in a highly successful global company that actively encourages open communication and innovative thinking.
A-6771-0050 - RKLF40H-S linear encoder tape scale (high accuracy 40 µm scale pitch, for ATOM™ and ATOM DX™ readheads)
A-6771-0050 is a 0.5 m (500 mm) length of RKLF40H-S (high accuracy version of RKLF40-S) incremental encoder tape scale.
A-6771-0100 - RKLF40H-S linear encoder tape scale (high accuracy 40 µm scale pitch, for ATOM™ and ATOM DX™ readheads)
A-6771-0100 is a 1 m (1000 mm) length of RKLF40H-S (high accuracy version of RKLF40-S) incremental encoder tape scale.
ACR2 warnings
ACR2 warnings SAFETY NOTE: Each ACR2 port contains spring-loaded components which cause pinch hazards if covers are removed.
EN - Warnings
EN - Warnings SAFETY NOTE: Each ACR2 port contains spring-loaded components which cause pinch hazards if covers are removed.
Rotary axis calibration has never been easier with CARTO 3.0
Renishaw’s new CARTO 3.0 software utilises the company’s XR20-W rotary axis calibrator to allow users to quickly capture and analyse data from rotary axes.
Why we use Raman spectroscopy
Learn about the advantages of Raman spectroscopy, and how it is ideal for combined and correlative microscopy. Raman microscopy complements other structural analysis techniques likes FTIR and XRD.
FORTiS™ enclosed encoders have been rigorously tested
Renishaw has decades of experience in the design, manufacture, and operation of metrology products suitable for use within harsh environments such as machine tools.
RUP1 ultrasonic probe for the REVO® system
The RUP1 probe system brings automated thickness measurement to CMMs as part of the REVO 5-axis multi-sensor measuring system.
R-S-1320-6 - Ø12.7 mm × 20.0 mm 303 stainless steel standoff with M6 thread
This steel standoff is ideal to elevate and locate workpieces.
R-S-1350-6 - Ø12.7 mm × 50.0 mm 303 stainless steel standoff with M6 thread
This steel standoff is ideal to elevate and locate workpieces.
R-S-19150-6 - Ø19.1 mm × 150.0 mm 303 stainless steel standoff with M6 thread
This steel standoff is ideal to elevate and locate workpieces.
R-S-1950-6 - Ø19.1 mm × 50.0 mm 303 stainless steel standoff with M6 thread
This steel standoff is ideal to elevate and locate workpieces.
R-S-25100-6 - Ø25.4 mm × 100.0 mm 303 stainless steel standoff with M6 thread
This steel standoff is ideal to elevate and locate workpieces.
R-S-2520-6 - Ø25.4 mm × 20.0 mm 303 stainless steel standoff with M6 thread
This steel standoff is ideal to elevate and locate workpieces.
R-S-2550-6 - Ø25.4 mm × 50.0 mm 303 stainless steel standoff with M6 thread
This steel standoff is ideal to elevate and locate workpieces.