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|  DSH 391C
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. `4 J4 y( I" o/ M$ y1 x2 { v" f | Ball pressure test1 }' |0 _' x' Z/ P* a
| 4, 7, 9, Figure 26 n! i; m c, d3 Q0 \" N, q9 D
| 60695-10-2(ed.2)+ l7 k* Z: e \1 g) g) Q
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Standard-
8 y) S. n9 B- x! [6 z: cIEC 60695-10-2:2003, Ed.2
" ~6 P! h; U" z1 m7 e! m! SSubclause(s):* l: K8 O' i- J/ b- b! r: I
48 o/ E3 Y& N$ \% X# x8 `
77 o, v2 n D! Q* u
9* E) [+ a; p* j$ E' Z- T7 c+ q
Figure 25 n1 l/ \* n9 R' [9 ]& o9 y( `3 X
No. Year5 X2 }% u9 `1 a8 }+ w8 {
DSH
* X; ]: x. n" g) m7 ]4 J0391C 2010 `2 [! p$ E1 s* k
Category:) x. x, V1 `$ _8 P' C
VARIOUS, GENERAL8 K4 Y0 ]' U$ [- A \
Developed by:$ U0 l% I& R! o
CTL-WG2 + WG4
1 I. X. R% S" f8 |5 ^Subject:
7 R/ T+ h- B! z* p2 dBall pressure test6 Q- u: T) q% W+ B- w! F' @
Key words:5 ~+ w. j5 F- c; E. ~- q. q/ v
-Diameter of indentation: T. b9 e8 l: k
-Pressure Ball. S: ~! P X2 h6 @- B7 B, z3 M
-Test Specimen Support
/ V* W. |3 T1 T2 ?5 f+ jApproved at the 48th CTL
$ L' h5 U0 ~: C" ]) JPlenary Meeting, year
, _8 b. {. [; ]! f- u. T2 u2011.7 c7 d+ l$ @6 W
Replaces DSH 391 and' Q& T, f( B' B
DSH 391mod.; L. D% @5 w3 L+ A; S; c
Question:! I5 `3 ~# I+ ^
Define the “best practice” test procedure for the ball pressure test based on the
1 K" N0 f$ Y4 M4 |3 t: V k5 Brequirements of the standard, and for practical reasons also based on 89/1011/CD, which
6 ~ ]9 T5 O' z# t D% z9 xis not in all respects identical with the requirements of the standard.
8 d2 f! m3 }! {- T9 c) EDecision:
1 P" O1 n" y- C, |) ?% WIn addition to clause 4.1 of the standard and due to various qualities of steel balls for rolling4 G1 q! E/ ^: \( W" t2 g2 m
bearings, the tolerance for the steel ball diameter shall not exceed ±1% to ensure' t. A, `, y* @) V! O- @
comparable results.
( D% m2 E2 O* p9 J$ eIn addition to clause 4.2 of the standard, the specimen support shall be a metal block of
& W2 j* A2 C# u/ ssteel, with a diameter � 50 mm and a height of � 100 mm or equivalent volume and mass.+ C+ c7 f# q: |5 y
In addition to 4.3 of the standard, a forced air convection single cabinet according to IEC& X8 {5 e" ?' v3 E* O7 y1 \
60216-4-1:1990, clauses 4.1.5 and 4.1.6 shall be used.% J5 c5 H% D' i( n; P# U' X& D
In addition to 7.1 of the standard conduct the test in air, in a heating cabinet being capable to
' x0 @" z2 d3 ]; s9 p1 treturn within 5 min and without any temperature overshoot exceeding +5°C to the. _! d8 A3 L/ u1 u* t" Z
previously adjusted and required air temperature within a tolerance of +/- 2°C .$ S0 ^) Q, Z% G4 q8 C
Measure the air temperature as close as possible to the test specimen.
7 b) P5 F$ g/ D; o1 ~7 U# u/ h! y/ xBefore introducing the test specimen, bring the cabinet, the test apparatus and the test( Q9 N7 d6 M7 X4 f. I' O$ m1 z P
specimen support to the required temperature and maintain the required test temperature for
4 R3 p' _) P7 `1 v) @# T24 h or until equilibrium conditions are reached, whichever occurs sooner.
, a. L; Z1 z) f8 U8 w. R1 I eWhen thermal equilibrium conditions are reached, place the test specimen on the approximate
$ g4 ^5 L9 s8 i, \: K# n _# ycentre of the test specimen support so that its upper surface is horizontal. Gently lower the
. e% M) K* q+ U; l1 W# ^; qpressure ball on to the approximate centre of the test specimen. Ensure that no conditions exist
5 J) r9 ~; N* U4 i: Z( pthat will cause the pressure ball to move other than in a downward direction during the test.: [7 R7 |+ D5 ]/ m5 W4 b6 g( V
After the ball pressure apparatus has been applied for 60 +2/-0 minutes, remove it and within 10
$ @* [0 ~4 T( f+ ] z( C; V* ^* Ys immerse the test specimen in ambient temperature water for 6 min ±2 min.
* ?8 R" f& Q2 F' z1 o' \Within 3 minutes of removal from the water, measure the diameter of the indentation caused by
7 K8 ?8 j/ U5 ^1 J$ zthe pressure ball to one decimal place.
9 p1 p$ T6 s i, e8 wDeviant from 7.2 of the standard, but in accordance with 89/1011/CD, the diameter “d” of
) o) [; J4 t, n* G: C# hthe indentation is to be measured as close as possible to the diameter of the “solid edge”5 Y5 j% u# ^3 P% k
of the indentation according to both a) figure 2a shown below and b) picture examples: Z# B: U: i6 a3 H$ ^
given in Annex A. The diameter of the solid edge of the indentation (dimension d ) shall
" k* o" q$ i3 s J" c$ nexclude any material deformation as shown in figure 2c below.& J$ E/ J) S- p# J# t. L" T
$ @ D7 b) ]& z# R: O$ B& q* n) y/ h
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