Bienvenue à Acmel – Labo
Acmel Labo fait partie du groupe ZwickRoell depuis 2002 et a développé une gamme d’instruments pour tester le ciment et le mortier.
Le développement et la production des instruments d’essais se déroule à l’usine Acmel de Saint Pierre Du Perray (près de Paris). Le logiciel développé par Acmel pour le contrôle de la séquence de test et la détermination des valeurs mesurées par ordinateur et microprocesseurs intègre le » savoir-faire manuel » du client.
Les produits Acmel se caractérisent par un fonctionnement simple et rapide, avec bouton-poussoir, tout en effectuant des évaluations complètes des valeurs enregistrées.
Industries
De l’asphalte aux liants en passant par le ciment – avec les instruments et machines d’essai Acmel Labo, vous pouvez tester presque tous les matériaux de construction ! Des machines et instruments universels, des solutions personnalisées, un portefeuille d’accessoires presque illimité et le logiciel intelligent testXpert® rendent cela possible.
Cement
Find out about our comprehensive products range. you so you can test different properties of one of the most important binders in the world.
Mortar
Similar as with concrete, cement also serves as a binding agent for the production of various types of mortar
Gypsum
The glass testing is usually realized as destructive flexure strength test that requires typically not very large test forces.
Adhesives
The wood testing is usually characterized by relatively low forces, but also by long testing paths.
Admixture/Additives
All types of hydraulic and nonhydraulic binders and mixtures are classified under this term. The priority, the testing machines and instruments are designed for, is cement, the basic material of the most binders.
Adhesives
The strength of cement is normally between 20 N/mm² and 50 N/mm² but the strength of high-performance concrete and reinforced concrete can amount 200N/mm² and more.
Sealants
The glass testing is usually realized as destructive flexure strength test that requires typically not very large test forces.
Protection/Repair
The wood testing is usually characterized by relatively low forces, but also by long testing paths.
Standard/Testing
All types of hydraulic and nonhydraulic binders and mixtures are classified under this term. The priority, the testing machines and instruments are designed for, is cement, the basic material of the most binders.
Precast
The strength of cement is normally between 20 N/mm² and 50 N/mm² but the strength of high-performance concrete and reinforced concrete can amount 200N/mm² and more.
Bricks/Tiles/Plastas
The glass testing is usually realized as destructive flexure strength test that requires typically not very large test forces.
Aggregates
The wood testing is usually characterized by relatively low forces, but also by long testing paths.
Non-metallic ceramic materials and composites whose softening points are above 1,500 ° C are defined as refractory material.
Refractory materials, which are separated into shaped (e.g. stones, blocks, slabs) and unshaped (e.g. cement, mortar, concrete) materials, are mainly used in high temperature industrial processes.
Automotive
All types of hydraulic and nonhydraulic binders and mixtures are classified under this term. The priority, the testing machines and instruments are designed for, is cement, the basic material of the most binders.
Glass/Wood
The strength of cement is normally between 20 N/mm² and 50 N/mm² but the strength of high-performance concrete and reinforced concrete can amount 200N/mm² and more.
Plastic
The glass testing is usually realized as destructive flexure strength test that requires typically not very large test forces.
Special Application
The wood testing is usually characterized by relatively low forces, but also by long testing paths.
Steel
All types of hydraulic and nonhydraulic binders and mixtures are classified under this term. The priority, the testing machines and instruments are designed for, is cement, the basic material of the most binders.
Aluminium
The strength of cement is normally between 20 N/mm² and 50 N/mm² but the strength of high-performance concrete and reinforced concrete can amount 200N/mm² and more.
Powder
The glass testing is usually realized as destructive flexure strength test that requires typically not very large test forces.
Special Application
The wood testing is usually characterized by relatively low forces, but also by long testing paths.
