Descripción del producto
Especificaciones técnicas
Accesorios
Manual de instruccionesHoja de datos
Videos

Comprobador de adherencia por arranque Elcometer 106

Este fácil de usar y completamente portátil medidor de adherencia tipo II proporciona un valor numérico para la adhesión. Las aplicaciones incluyen pintura o pulverización de plasma en la cubierta de puentes, revestimientos sobre acero, aluminio, hormigón, etc.

  • Se suministra en caja de transporte - ideal para pruebas in situ
  • Accionamiento manual - sin fuente de alimentación de energía necesaria
  • Incluye un cortador para las pruebas según las normas EN13144 e ISO 4624

Método de prueba

Se fija al revestimiento una “sufridera” de prueba utilizando un adhesivo. El 106 aloja una configuración de muelles que aplica una fuerza de elevación a la “sufridera” al aumentar la tensión.

 

Cuando se desprende el revestimiento de la superficie, un indicador de la escala muestra el valor numérico de adherencia expresada en términos de fuerza por unidad de superficie requerida para separar la “sufridera”.

 

Se precisa hacer una inspección de la cara de la “sufridera” para determinar el modo de fallo. Para aumentar la sensibilidad con bajos valores o para superficies irregulares, se dispone de una “sufridera” de 40 mm (1.52”). Cuando se usa esta “sufridera”, hay que dividir la lectura de la escala por 4.

Comprobador de adherencia por arranque Elcometer 106
Comprobador de adherencia por arranque Elcometer 106

Especificaciones técnicas

Referencia Descripción Rango
MPa (N/mm2) kg/cm2 psi Certificado
F106----5 Comprobador de adherencia Elcometer 106 - Escala 5 0 - 0.2 0 - 2 0 - 30 ο
F106----1 Comprobador de adherencia Elcometer 106 - Escala 1 0 - 3.5 0 - 35 0 - 500 ο
F106----2 Comprobador de adherencia Elcometer 106 - Escala 2 0 - 7.0 0 - 70 0 - 1000 ο
F106----3 Comprobador de adherencia Elcometer 106 - Escala 3 0 - 15 0 - 150 0 - 2000 ο
F106----4 Comprobador de adherencia Elcometer 106 - Escala 4 0 -22 0 - 220 0 - 3200 ο
Dimensiones Escalas 1, 2, 5: 152 x 76 mm (6 x 3”)   Escalas 3 y 4: 150 mm
Diámetro de sufridera 20mm (0.76”)
Área de sufridera 314mm² (0.49 sq inch)
Peso bruto del kit Escala 1, 2 y 5: 2,8 kg (6,2 lb) Escala 3: 4,2 kg (9,3 lb) Escala 4: 45 kg (9,9 lb)
Lista de empaque Medidor de Adherencia por Arranque Elcometer 106 , paquete con 20 sufrideras, adhesivos Araldite, anillo de soporte de base, abrazadera magnética sufridera, cortador de sufridera, estuche de transporte y manual de instrucciones


NORMAS:
AS 1580.408.5, ASTM D 4541, AS/NZS 1580.408.5, EN 13144, EN 24624, ISO 4624, ISO 16276-1, JIS K 5600-5-7, NF T30-062, NF T30-606

Los Estándares de color gris han sido remplazados pero siguen siendo reconocidos en algunas industrias

Certificado de Calibración Opcional disponible.

Accesorios

T1062895-10 Sufrideras de repuesto de 20 mm (0.76") de diámetro (Paquete de 10)
T1062895- Sufrideras de repuesto de diámetro de 20 mm (0.76") (Paquete de 100)
T1062914- Sufrideras grandes de 40 mm (1.52") de diámetro (Paquete de 5)
T1062915- Anillo base grande para sufrideras de 40 mm (1.52")
T99912906

Adhesivo Epoxi Araldite Estándar Dos piezas , tubos 2 x 15 ml

T99914009 Cortador de sufridera de 20 mm (0.76")

Videos

1. An Introduction to Pull-Off Adhesion on Coated Surfaces

Adhesion testers are used to test how well a coating has adhered to a surface, as poor adhesion can lead to premature coating failures. The coating inspector has essentially three main methods to choose from - cross hatch, push off, and the most common, the pull-off adhesion test.

 

This video is part of a series on Pull-Off Adhesion Testing, to see the next video please click here.

To download the video script in English click here.

VÍDEOS RELACIONADOS

1. An Introduction to Pull-Off Adhesion on Coated Surfaces
1. An Introduction to Pull-Off Adhesion on Coated Surfaces

Adhesion testers are used to test how well a coating has adhered to a surface, as poor adhesion can lead to premature coating failures. The coating inspector has essentially three main methods to choose from - cross hatch, push off, and the most common, the pull-off adhesion test.

 

This video is part of a series on Pull-Off Adhesion Testing, to see the next video please click here.

To download the video script in English click here.

//www.youtube.com/embed/rBTGaP-OXLM
2. Selecting the Dolly Diameter and Gauge
2. Selecting the Dolly Diameter and Gauge

When it comes to selecting the dolly diameter and adhesion gauge type to use for a pull-off adhesion test; factors such as the substrate material, the substrate shape, and the expected coating strength will affect the dolly or gauge the user chooses.

 

This video is part of a series on Pull-Off Adhesion Testing, to see the next video please click here.

To download the video script in English click here.

//www.youtube.com/embed/NskjSM8n5UY
3. Selecting the most Appropriate Position for an Adhesion Test
3. Selecting the most Appropriate Position for an Adhesion Test

When preparing a pull-off adhesion test, whilst the actual location and the number of pulls is typically defined by the test method or procedure that’s being followed, the actual positioning of the dolly is vital, as poor positions can result in low pull-off values or invalid tests.


 

This video is part of a series on Pull-Off Adhesion Testing, to see the next video please click here. 

To download the video script in English click here.

 

//www.youtube.com/embed/7xmYIfozQaw
4. Preparing the Dolly and the Coating
4. Preparing the Dolly and the Coating

Properly preparing the dolly and the surface before performing a pull-off adhesion test will help achieve higher pull-off values.

 

This video is part of a series on Pull-Off Adhesion Testing, to see the next video please click here.

To download the video script in English click here.

 

//www.youtube.com/embed/-26j4aoiFe8
5. To Cut or Not to Cut?
5. To Cut or Not to Cut?

Should the coating around a dolly be cut, or left uncut prior to a pull-off adhesion test; and whose decision is it to make?

 

This video is part of a series on Pull-Off Adhesion Testing, to see the next video please click here.

To download the video script in English click here.

//www.youtube.com/embed/ZqSNwQSOPqA
6. The Pull-Off Test
6. The Pull-Off Test

Once the glue between a properly prepared dolly or pull stub and a properly prepared coating has fully cured, the pull-off adhesion test can be undertaken using the adhesion tester of choice.

 

This video is part of a series on Pull-Off Adhesion Testing, to see the next video please click here.

To download the video script in English click here.

 

//www.youtube.com/embed/4rjUgA2Lwos
7. Assessing the Result; Glue, Adhesive and Cohesive Failures
7. Assessing the Result; Glue, Adhesive and Cohesive Failures

Once the pull-off adhesion test has been completed the tensile pull-off force, whether the coating was coat or not, the dolly size and gauge type, and the failure mode of the coating are all recorded; with the nature of the failure usually recorded as an estimated percentage to the nearest 10%.

 

This video is part of a series on Pull-Off Adhension Testing, to view the playlist please click here.


To download the video script in English click here.

//www.youtube.com/embed/TuFY8_KI9lQ
<P> 8. Measuring the Pull-Off Adhesion of Coatings on Concrete</P>

 8. Measuring the Pull-Off Adhesion of Coatings on Concrete

Testing coating adhesion on concrete substrates using a pull-off adhesion gauge is similar to testing coatings on metal substrates. However, there are a number of differences in the test procedures and equipment used.


This video is part of a series on Pull-Off Adhension Testing, to view the series playlist please click here.


To download the video in script in English click here.

//www.youtube.com/embed/O0wMikGLi84