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What are the usage conditions for your wheels?
The usage conditions for wheels can be divided into four categories according to morphology: normal, shedding, loading and glazing. Observing the usage conditions of your wheels in order to choose more appropriate wheels is the first step to improving grinding processes.
(1) Normal type
When the cutting edges of abrasive grains become dull by increasing the cutting infeed, grinding force increases. At this time, cutting edges are cleaved so as to expose new cutting edges adequately. Thus, the normal type means that ideal grinding action is usually continued, recovering original sharpness again. In such the normal type as this, the cutting edge intervals (from original sharpness to next sharpness) of abrasive grains are adequately kept, カジノ シークレット 入金heel wear is remarkably less in comparison with the shedding type since chips are not welded. Consequently, the workpiece surface is finely finished and grinding precision is high. Though the grinding force of this type is higher than the shedding type, it is lower than other loading type and glazing type.
The カジノ シークレット 入金heel and working condition are to be selected so that such the grinding as this is usually performed as カジノ シークレット 入金ork.
(2) Shedding type
This phenomenon is caused when the grade of カジノ シークレット 入金heel is extremely softened for the grinding condition. The カジノ シークレット 入金heel cannot be withstood to the grinding force and original grains fall by the destroying of bond.
Under such the condition as this, since the cutting edge intervals of abrasive grains are wide and the workpiece is usually ground by sharp cutting edges, though sharpness is extreme, the カジノ シークレット 入金heel surface becomes rough, form is in disorder, the precision and finished surface roughness of workpiece become remarkably worse and the カジノ シークレット 入金heel is also considerably worn.
(3) Loading type
This phenomenon is caused when the softened and viscous materials such as aluminum, stainless, etc., are ground. Also, the phenomenon is easy to cause when chips are adhered to cutting edges (built-up edge) and casting iron, stone material, etc., are ground by dry process. Thus, chips are caught into pores to clog chip pockets. In these two types, カジノ シークレット 入金rinding force becomes large. Especially, in the case of former, vibration is easy to occur and “Peeling” or “Chatter” most especially occurs on the finished surface.
(4) Glazing type
When grade is excessively hard, abrasive grain is hard, toughness is low and the wheel speed is over for grinding conditions, the cutting edges of abrasive grains become dull by proceeding カジノ シークレット 入金rinding and the sharpness becomes very worse, grinding force is large, heat generation mostly occurs and chatter and burn mark also occur much.
The condition of your chips is also important information.
When grinding, the workpiece is ground by the cutting edges of abrasive grains, discharging fine chips. The shedding, glazing, etc. of カジノ シークレット 入金heel occur from the relationship between this chip shape and each cutting edge of abrasive grain. This phenomenon occurs from a constant timing. Consequently, the grinding mechanism controls condition for that time.
Chips ground by grinding are fine similarly with chips ground by turning tool and milling cutter. The chip is divided into five types as follows:
(1) Flow chip
Ribbon shape chip occurs when カジノ シークレット 入金heel sharpness is good.
(2) Shear chip
This chip occur when カジノ シークレット 入金heel sharpness is good.
When brittle materials are ground, chips are discharged.
(3) Peeling chip
Powder chip occurs when カジノ シークレット 入金heel sharpness becomes dull.
(4) Built-up edge chip
Chips are adhered and accumulated on カジノ シークレット 入金heel face and these chips are made of texture so as to be the same as built-up edge.
(5) Melted chips
These chips are spherical or semi-spherical by melting when powder chips are scattered by over-heat. This is mostly found when ground by loaded or glazed カジノ シークレット 入金heel.
Depth of cut for abrasive grain
When selecting the カジノ シークレット 入金heel and various working conditions suited for カジノ シークレット 入金ork, first, the condition when the カジノ シークレット 入金heel contacts with the workpiece and the workpiece is finely ground by the grain cutting edges must be understood. It is necessary to understand the infeed that each grain cutting edge grinds, that is, about the grain depth of cut.
カジノ シークレット 入金rain depth of cut varies by the following items:
1) カジノ シークレット 入金heel speed and workpiece speed
2) カジノ シークレット 入金heel sizes and workpiece sizes
3) Infeed amount
The above relations are explained by the following figure.
D: Diameter of カジノ シークレット 入金heel (mm)
d: Diameter of workpiece (mm)
V: Wheel speed (m/min)
v: Workpiece, wheel speed (m/min)
f: Feedrate
t: カジノ シークレット 入金heel infeed amount (mm)
g: Grain depth of cut (mm)
ℓ: Length of contact arc (mm)
a: Grain cutting edge interval (mm)
(1) Grain depth of cut (g)
When カジノ シークレット 入金rain depth of cut (g) is geometrically found, the following formulas are established every grinding type.
Cylindrical grinding | |
---|---|
Internal grinding | |
Surface grinding |
As the grain depth of cut (g) increases, the load exerted on the grain increases, and grains are removed. On the other hand, if (g) is smaller, the load exerted on the grain decreases and the grain experiences abrasion wear. These formulas clarify the relationship between grinding conditions and カジノ シークレット 入金heel actual hardness on grinding.
Condition |
Wheel speed (V)* | SlowQuick |
---|---|---|
Wheel speed of workpiece (v)* | QuickSlow | |
* If v/V is constant, the actual hardness on カジノ シークレット 入金ill not change even if v and V change. | ||
Grain cutting edge interval (a) | WideNarrow | |
Diameter of カジノ シークレット 入金heel (D) | SmallLarge | |
Diameter of workpiece (d)** | SmallLarge | |
Infeed amount of カジノ シークレット 入金heel (t) | LargeSmall | |
Grain depth of cut (g) | LargeSmall | |
カジノ シークレット 入金heel actual hardness on grinding | Softly acted.Hardly acted. |
** For internal grinding, large and small are reversed.
(2) Length of contact arc (I)
Length of contact arc (I) is represented by the following formula.
As the length of contact arc (I) increases, grain depth of cut (g) decreases, which has a hardening effect on the wheel. Conversely, a decrease in the length of contact arc (I) can be understood to have a softening effect.
The length of contact arc is controlled by カジノ シークレット 入金rinding method as well as by the wheel diameter, the workpiece diameter and the wheel infeed amount, and it increases in the order shown below.
cylindrical grinding < horizontal surface grinding < internal grinding < vertical surface grinding, double-sided surface grinding
Accordingly, the wheel chosen for use with a horizontal surface grinder should be softer than that used with a cylindrical grinder. For a vertical surface grinder, an even softer one should be chosen and the length of contact arc should also be reduced.