1 integrated yield method – FEC AFC1200 User Manual

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6.1.3 Yield Control Method (U.S.A. PATENT No. 4,894,767)

In Yield Control method, fastening is performed based upon attaining a desired permanent
elongation or bolt stretch. Fastening can be performed in from 1 to 4 incremental steps that
will successively secure the fastener to a specified torque or angle value before attaining the
final permanent elongation or bolt stretch. Incremental fastening steps should not be
performed if they will occur after Yield Control is initiated. Yield Control commences when
CROSSOVER RATE 2 (TORQUE or ANGLE) or CROSSOVER AREA (TORQUE or ANGLE)
is reached or exceeded. Yield Control method is primarily used when greater control of clamp
load is required.

Examples:

Connecting rods, main bearing caps, and cylinder heads.

6.1.3.1 Integrated Yield Method

The Integrated Yield method will be the primary controlling method on fasteners that have a
clearly definable yield point. These fasteners will exhibit a torque rate equal to approximately
zero (0) after the yield point has been detected. This rate will remain relatively constant for
the period specified by the elongation angle (ANGLE), at which point the fastener will have
attained the proper bolt stretch (LENGTH).

T1

T8

T7

T6

T5

T4

T3

T2

1

o

ANGLE

AFTER 1
AFTER 2
AFTER 3

AFTER 8

o

o

o

o

}

EVERY ONE DEGREE,
NEW TORQUE DATA IS
ADDED INTO THE EQUATION
AND THE OLDEST TORQUE
DATA IS OMITTED.

CROSSOVER
RATE 2
TORQUE/ANGLE

TORQUE/ANGLE

* SCREW PITCH
* LENGTH
* ANGLE
* YIELD RATE
* CONSTANT

TORQUE

<

FOR PERIOD EQUAL TO THE
ELONGATION ANGLE (ANGLE)

ACTUAL AVERAGE TORQUE RATE YIELD RATE

(ANGLE)

1ST

ANGLE

PRESET ITEMS

FIG. 6-1-3-1 Yield Control Function for Integrated Yield Method

{ Integrated Yield Method Fastening

Chapter 6: Fastening Instructions

User Console Version A3.53

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