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Comparison PROXXON FMZ 70 mm / sponges 75 mm vs Stanley 1-83-069 70 mm

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PROXXON FMZ 70 mm / sponges 75 mm
Stanley 1-83-069 70 mm
PROXXON FMZ 70 mm / sponges 75 mmStanley 1-83-069 70 mm
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Typevisevise
Vice typemetalworkmetalwork
Specs
Compression mechanismscrewscrew
Jaw opening70 mm70 mm
Throat depth40 mm
Jaw width75 mm
Clamping force0.25 kN
General
Design features
hinge mechanism
replacement jaws
hinge mechanism
replacement jaws
Installationclampclamp
Materialzincaluminium
Weight1.6 kg1.6 kg
Added to E-Catalogapril 2018may 2017

Throat depth

The depth of clamping provided by a vise or clamp (see "Type").

This parameter specifies how deep the clamped part can go between the jaws or stops until its edge rests against the tool. When choosing according to the depth of the clamp, note that a large depth accordingly affects the dimensions, weight and price of the tool.

Jaw width

Tool jaw width. It is indicated mainly for vices (see "Type") — among the clamps there are not so many models equipped with jaws.

Larger jaws provide a more secure hold, especially with large workpiece sizes, but make it difficult to work with small parts, and also affect the dimensions and weight of the entire tool.

Clamping force

Clamping force provided by a vise or clamp (see "Type").

This parameter describes the force with which the fixture is able to compress the fixed parts. It is measured in kilonewtons; Recall that 10 newtons approximately correspond to a force of 1 kg, so, for example, 1.5 kN is about 150 kg.

On the one hand, the greater the clamping force, the more powerful and advanced the tool is, the wider the potential scope of its application. On the other hand, high efforts are not always required, on the contrary: when working with soft or delicate materials, it is necessary to limit the pressure force, and not all tools have such an opportunity. Therefore, when choosing, you should proceed from what materials you plan to work with and what tasks to solve. Note that for general use, in most cases, a force of 1.5 – 2 kN is sufficient; more detailed recommendations for specific tasks can be found in special sources.

Material

The main material used in the construction of the tool.

Steel. In most cases, we are talking about classic tool steel — high-carbon or alloyed; both varieties have increased hardness and abrasion resistance. At a relatively low cost, this material is reliable, durable, practical and suitable for even the most powerful tools operating under high loads. But the resistance to corrosion of tool steel can be different: in particular, its carbon varieties do not tolerate contact with moisture, it is advisable to protect products from such materials from moisture and lubricate for storage. Anyway, detailed recommendations for the maintenance of the tool can be found in the instructions for it.

Cast iron. Cast iron is the "closest relative" of steel and differs from it primarily in its higher carbon content. This material is somewhat cheaper, but more fragile and less reliable, which is why it is poorly suited for high loads and is less resistant to shock.

Aluminium. The main advantage of aluminium alloys can be called a small weight; in addition, they are excellently resistant to corrosion. At the same time, such materials are poorly suited for high loads, and therefore are mainly used in relatively compact tools that are not designed for high working forces.

Plastic. Plastic is inexpensive and weighs a litt...le, but it is noticeably inferior in strength even to aluminium and cast iron, not to mention steel. Therefore, it is used not so much as the main body material, but as a material for stops and linings; many "plastic" models are actually steel or aluminium tools, complete with plastic parts. The meaning of this design is that the plastic stops are very gentle on the compressible parts, making them suitable even for delicate materials; and thanks to the metal base, the clamping force in such tools can be quite high.

Tree. The tree has a relatively low strength, therefore it is used only in certain models of clamps, and only sponges or stops are made from it — the rest of the structure is made of metal. Such tools cannot provide high clamping force, but this is not required, wooden clamps have a different specialization: they are designed for relatively soft and delicate materials that can be damaged by hard metal jaws or excessive clamping force.

Magnesium. Magnesium alloys combine light weight, high strength and excellent corrosion resistance. On the other hand, their price is also quite high, which is why such materials are rare — mainly in clamps (see "Type"), which use relatively little metal.

Zinc. Zinc alloys are quite durable and resist corrosion well. However, in terms of reliability and working properties, they are generally inferior to steel, and therefore are relatively rare.
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