3/4-XH-BE 3/4" Schedule 80; 90 Degree Black
3/4" SCHEDULE 80; 90 DEGREE BLACK ELBOW-FIT3/4XHBE >
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3/4" SCHEDULE 80; 90 DEGREE BLACK ELBOW-FIT3/4XHBE >
Gates® Power Transmission Hi-Power® II B146 Banded Heavy Duty V-Belt, B Section, 21/32 in W Top, 149 in L Outside, 13/32 in THK, EPDM
The wrapped classical section Hi-Power™ V-belt has a long reputation for reliability on agricultural and industrial applications. The arched top of the Hi-Power belt provides superior strength to prevent "dishing" and distortion of the tensile section. The cords are properly aligned, each of them carrying its full share of the load.
Gates® Power Transmission Hi-Power® II PowerBand® 4/B80 Banded Heavy Duty V-Belt, B Section, 21/32 in W Top, 83 in L Outside, 13/32 in THK, EPDM
The PowerBand® construction allows multiple belts to function as a single unit, with even load distribution and each strand fitting securely in the sheave groove.
Gates® Power Transmission Hi-Power® II C81 Banded Heavy Duty V-Belt, C Section, 7/8 in W Top, 85 in L Outside, 17/32 in THK, EPDM
The wrapped classical section Hi-Power™ V-belt has a long reputation for reliability on agricultural and industrial applications. The arched top of the Hi-Power belt provides superior strength to prevent "dishing" and distortion of the tensile section. The cords are properly aligned, each of them carrying its full share of the load.
Gates® Power Transmission Hi-Power® II B26 Banded Heavy Duty V-Belt, B Section, 21/32 in W Top, 29 in L Outside, 13/32 in THK, EPDM
The wrapped classical section Hi-Power™ V-belt has a long reputation for reliability on agricultural and industrial applications. The arched top of the Hi-Power belt provides superior strength to prevent "dishing" and distortion of the tensile section. The cords are properly aligned, each of them carrying its full share of the load.
Gates® Power Transmission Hi-Power® II PowerBand® 4/B60 Banded Heavy Duty V-Belt, B Section, 21/32 in W Top, 63 in L Outside, 13/32 in THK, EPDM
The PowerBand® construction allows multiple belts to function as a single unit, with even load distribution and each strand fitting securely in the sheave groove.
