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.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

The handle has been designed to be easily removed. The thickness of metal at the point of attachment of the handle to the rim has been reduced, allowing it to be bent up to 90 degrees. The handle is easily fractured and removed by bending over 90 degrees.

The handle has been designed to be easily removed. The thickness of metal at the point of attachment of the handle to the rim has been reduced, allowing it to be bent up to 90 degrees. The handle is easily fractured and removed by bending over 90 degrees.

The handle has been designed to be easily removed. The thickness of metal at the point of attachment of the handle to the rim has been reduced, allowing it to be bent up to 90 degrees. The handle is easily fractured and removed by bending over 90 degrees.

Gold grids, mesh 200, thick bars pattern.

Nickel grids, mesh 200, thick bars pattern.

Copper grids, mesh 200, thick bars pattern.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.