Uncoated TEM Grids

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Double grids, offering a combination of mesh support values, are used primarily in metallurgical applications for supporting thin metal foils. Two grids are joined by a thin 'hinge', allowing one grid to be folded on top of the other, trapping the specimen between them.

Rectangular Mesh Grids for special range of applications.

Rectangular Mesh Grids for special range of applications.

Rectangular Mesh Grids for special range of applications.

Rectangular Mesh Grids for special range of applications.

Rectangular Mesh Grids for special range of applications.

Rectangular Mesh Grids for special range of applications.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.

Parallel bar grids are particularly useful for obtaining information from sequential ribbons of sections.