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GN 148.4 Vibration Damping Elements Rubber, Flange Steel, for Tensile / Compressive Load

Vibration Damping Elements GN 148.4: Rubber, Flange Steel, for Tensile / Compressive Load

Type: A - For compressive load
Material: ST - Steel

Overview of Types Vibration Damping Elements / Vibration Isolation Mounts / Rubber Bumpers Guide to Selecting Vibration Damping Elements Plastic Characteristics

Product description

Vibration damping elements GN 148.4 absorb vibrations to protect the environment of a machine from vibrations and noise.

Type B is designed primarily for tensile loads, making it suitable for overhead applications. In combination with type A, it can also be mounted on the side (see application example).

Specification

Vibration damping element
Natural rubber (NR)

Vulcanized
Black
Operating temperature
-40 °F to +176 °F (-40 °C to +80 °C)
Hardness Shore A ±5
- Soft40
- Medium60
- Hard70

Contact plate / Threaded insert
SteelST

RoHS

GN 148.4 Rubber Vibration Damping Elements, Steel Flange, for Tensile / Compressive Load sketch

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Part Options / Table

Type

A	For compressive load
B	For tensile / compressive load

Part Number A - For compressive load	Part Number B - For tensile / compressive load	d₁ Type A	Type B	d₂	b	d₃ Type B	d₄	h₁	h₂	Length l	m	A/F


148.4-40-M8-A-40-ST		1.57	-	M 8	2.95	-	0.35	1.30	0.10	4.49	3.78	15
148.4-40-M8-A-60-ST		1.57	-	M 8	2.95	-	0.35	1.30	0.10	4.49	3.78	15
148.4-40-M8-A-70-ST		1.57	-	M 8	2.95	-	0.35	1.30	0.10	4.49	3.78	15
	148.4-56-M8-B-40-ST	-	2.20	M 8	2.95	2.64	0.35	1.30	0.10	4.49	3.78	15
	148.4-56-M8-B-60-ST	-	2.20	M 8	2.95	2.64	0.35	1.30	0.10	4.49	3.78	15
	148.4-56-M8-B-70-ST	-	2.20	M 8	2.95	2.64	0.35	1.30	0.10	4.49	3.78	15

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Metric

Dimensions in: Inch (change to Metric)

d₁ Type A	Type B	d₂	b	d₃ Type B	d₄	h₁	h₂	Length l	m	A/F

1.57	-	M 8	2.95	-	0.35	1.30	0.10	4.49	3.78	15
-	2.20	M 8	2.95	2.64	0.35	1.30	0.10	4.49	3.78	15

Build & Price

Diameter d₁ (type A)

1.57

Diameter d₁ (type B)

2.20

Thread d₂

M 8

Type

A - For compressive load

B - For tensile / compressive load

Hardness

40 - Soft

60 - Medium

70 - Hard

Material

ST - Steel

Load Capacity

Terms

F₁ = Static compressive load
F₂ = Static tensile load
F₃ = Static compressive load
s₁ = Compression (spring travel) under load F₁
s₂ = Elongation (spring travel) under load F₂
s₃ = Compression (spring travel) under load F₃
The spring rate R is the load which causes the damping element to be compressed / elongated by 1 mm.

Formula for calculating spring rate: R = F/s

The values listed in the table can be used to determine the degree of isolation as a function of the interference frequency, in accordance with the approach shown on page XYZ.
The information on load capacity represents non-binding guidelines and excludes any liability. They generally do not constitute a guarantee of quality. Whether a product is suitable for a particular application must be determined in each individual case by the user.

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d₁ Type A	Hardness in Shore	Max. static load F₁	Spring rate R₁ in N/mm	Max. compression s₁

40	40	147 lbf (654 N)	327	2
40	60	223 lbf (990 N)	495	2
40	70	347 lbf (1543 N)	771.5	2

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d₁ Type B	Hardness in Shore	Max. static load F₂	Spring rate R₂	Max. elongation s₂	Max. static load F₃	Spring rate R₃	Max. compression s₃

56	40	194 lbf (863 N)	431.5	2	19.78 lbf (88 N)	17,6	5
56	60	225 lbf (1000 N)	500	2	33.95 lbf (151 N)	30,2	5
56	70	406 lbf (1806 N)	903	2	45.19 lbf (201 N)	40,2	5

Application Example

Guide to Selecting Vibration Damping Elements


For correct selection of a standard part used for vibration damping, it is first necessary to understand the terms listed below: The disturbing frequency is the frequency emitted by the machine, e.g. the number of strokes per minute, measured in Hertz, or the main shaft rotation speed, measured in revolutions per minute. The static load in Newtons is the load that acts on a single vibration damping element. The total weight of a machine is divided by the number of damping elements. In an optimal arrangement, each element bears the same load. The degree of isolation, given in percent, is the measure of the absorption of the disturbing frequency, i.e. the damping. The compression or the spring travel is the maximum change in the height of the damping element in mm. The calculated spring rate in Newtons/millimeter is the load that causes a height change of 1 mm.

Example with the following assumptions: Disturbing frequency = 50 Hz; load = 120 N; desired degree of isolation = 90 % The selection of a suitable vibration damping element begins with determining the required compression. This can be taken from the y-axis of the diagram at the intersection of a vertical line at 50 Hz (x-axis) and the characteristic curve of the desired degree of isolation of 90 %. The example values yield a compression of 1 mm. With the compression determined in this way and the given static load, it is possible to calculate the required spring rate with the following formula: Static load F [N] per damping element / Spring travel s [mm] = Spring rate [N/mm] => 120 N / 1mm = 120 N/mm Based on the calculated spring rate and the desired shape, the appropriate damping element can then be selected. The respective spring rates are given in a table on the corresponding standard sheets. In making the selection, it is important to ensure that the spring rate at least satisfies the calculated value. The example arrives at a vibration damping element with article number GN 148.3-46-M10-A-60-S and a spring rate of 138.3 N/mm.

Selected Part

Part Number

Total (net)

Mex$1,029.60

Available within 2 weeks

Quantity

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Please note our quantity discounts (Mexican Pesos).

Min	Max	Price
1	49	Mex$1,029.60
50	99	Mex$943.80
100	249	Mex$858.00
≥ 250		Mex$772.20

Prop 65: Not compliant

WARNING:
Cancer and Reproductive Harm - www.P65Warnings.ca.gov

RoHS: Compliant

This article is RoHS-compliant in application of Annex III., which means it complies with EU Directive 2011/65/EU, including extension (2015/863/EU), for restricting the use of certain hazardous substances in electrical and electronic devices. The Directive regulates the use of hazardous substances in devices and components. The implementation in national law is summarily described with RoHS(Restriction of (the use of certain) hazardous substances)).

Weight: 0.324 lbs

If weight is not listed, please contact our Sales Department for additional information regarding weight.
Phone: +52(81)2721-4021