부품 정보
2nd 0.0905 to 0.0907 in. Diameter bearing seat on 0.074 to 0.076 in. Dia
MRC:
The style designation indicating the configuration that most nearly corresponds to the appearance of the first end.AAGZ
First End Style:
Plain
MRC:
A term used to identify the ends as identical or not identical.AAHN
End Similarity:
Not identical
MRC:
The style designation indicating the configuration that most nearly corresponds to the appearance of the second end.AAHP
Second End Style:
Bearing seat
MRC:
The dimension measured along the longitudinal axis with terminated points at the extreme ends of the item.ABHP
Overall Length:
Between 2.478 inches and 2.482 inches
MRC:
The length of a straight line which passes through the center of the first end,and terminates at the circumference.AMDL
First End Diameter:
Between 0.0905 inches and 0.0907 inches
MRC:
The length of a straight line which passes through the center of the second end,and terminates at the circumference.AMFZ
Second End Diameter:
Between 0.0895 inches and 0.0900 inches
Second End Bearing Seat Length:
Between 0.070 inches and 0.072 inches
MRC:
The length of a straight line which passes through the center of the second end bearing seat,and terminates at the circumference.AMHL
Second End Bearing Seat Diameter:
Between 0.0905 inches and 0.0907 inches
MRC:
The measured distance of the second end from the bearing seat to the end.AMHM
Second End Distance From Bearing Seat To End:
0.500 inches
MRC:
The number of steps provided.ATPC
Step Quantity:
2
MRC:
The length of a straight line which passes through the center of the largest step,and terminates at the circumference.CSPY
Largest Step Diameter:
Between 0.0905 inches and 0.0907 inches
MRC:
The chemical compound or mechanical mixture properties of which the item is fabricated.MATT
Material:
Steel
MRC:
The specification,standard,or manufacturers reference,and the classification designation,such as class,condition,temper,and the like,that identifies the material.MDCL
Material Specification:
Qq-s-00763, cl 303 federal specification single material response