backing pads for hook-and-loop discs provide stable, precise support during sanding and finishing. available with 5 mm, 10 mm, extra-flexible or no sponge, and in ventilated versions to reduce heat buildup, they ensure comfort, control and even pressure distribution across the work surface.
backing pads with 10 mm foam for hook-and-loop discs provide excellent adaptability to curved surfaces, reducing vibration and yielding smoother finishing. available in multiple diameters, with or without extraction holes, and with male or female m14 threads, they are ideal for sanding paints, fillers and primers.
backing pads with 5 mm foam for hook-and-loop discs provide greater stiffness than 10 mm versions, offering superior control and excellent flatness when sanding. available in various diameters and equipped with m14 female threads, they are ideal for working on paints, primers, fillers and flat metal surfaces.
extra-flexible foam backing pads are the most conformable in the range: the expanded polyurethane body and reduced plastic hub allow the edge to flex and follow curved or contoured surfaces with ease. available in various diameters with m14 female thread, they are ideal for delicate finishing and automotive bodywork applications.
no-foam backing pads for hook-and-loop discs provide maximum rigidity, ensuring precise control and excellent flatness in more aggressive sanding operations. available in various diameters with m14 female threads, they are ideal for metal sanding and flat-surface work, offering stability and consistent performance.
ventilated backing pads for hook-and-loop discs feature a grooved surface that promotes airflow beneath the abrasive, reducing heat build-up and clogging during operation. available in 115, 125 and 150 mm diameters with m14 female thread, they improve disc life and ensure more consistent finishing performance.
Backing pads featuring an extra-strong male hook-and-loop surface for secure attachment of Surface Conditioning Material (SCM) abrasive discs. Available in various diameters and equipped with an M14 female thread, they are ideal for sanding metal and flat surfaces, ensuring excellent stability and consistent performance.
backing pads with 10 mm foam for hook-and-loop discs provide excellent adaptability to curved surfaces, reducing vibration and yielding smoother finishing. available in multiple diameters, with or without extraction holes, and with male or female m14 threads, they are ideal for sanding paints, fillers and primers.
backing pads with 5 mm foam for hook-and-loop discs provide greater stiffness than 10 mm versions, offering superior control and excellent flatness when sanding. available in various diameters and equipped with m14 female threads, they are ideal for working on paints, primers, fillers and flat metal surfaces.
extra-flexible foam backing pads are the most conformable in the range: the expanded polyurethane body and reduced plastic hub allow the edge to flex and follow curved or contoured surfaces with ease. available in various diameters with m14 female thread, they are ideal for delicate finishing and automotive bodywork applications.
no-foam backing pads for hook-and-loop discs provide maximum rigidity, ensuring precise control and excellent flatness in more aggressive sanding operations. available in various diameters with m14 female threads, they are ideal for metal sanding and flat-surface work, offering stability and consistent performance.
ventilated backing pads for hook-and-loop discs feature a grooved surface that promotes airflow beneath the abrasive, reducing heat build-up and clogging during operation. available in 115, 125 and 150 mm diameters with m14 female thread, they improve disc life and ensure more consistent finishing performance.
Backing pads featuring an extra-strong male hook-and-loop surface for secure attachment of Surface Conditioning Material (SCM) abrasive discs. Available in various diameters and equipped with an M14 female thread, they are ideal for sanding metal and flat surfaces, ensuring excellent stability and consistent performance.