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Accurate Positioning... Perfect hole location

Features - HSS Co material - TiN coated - Precise point geometry

Spotting drill 100% Australian Owned www.sutton.com.au

Benefits - Perfect hole location - Offers spotting and chamfering with one tool

english


Drills NC Spotting - Precision drill for machine use - Rigid design for “seat” position accuracy - 90º offers hole chamfering & spotting with the one tool - 120º for spotting, matching a typical drill point - Only drill to the depth of the point

Catalogue Code

90º

120º

90º

Catalogue Code

D175

D176

D355

Discount Group

A1124

A1124

A0208

HSS Co

HSS Co

VHM

Surface Finish

TiN

TiN

Brt

Colour Ring & Application

NC

NC

NC

Geometry

-

-

-

Point Type

90º

120º

90º

Size Ref.

Material

D100 0100 Item #

Shank Tolerance

Size Ref.

d1

0300 0400 0500 0600 0800 1000 1200 1600 2000 2500

3,0 4,0 5,0 6,0 8,0 10,0 12,0 16,0 20,0 25,0

l1

l2

d2

49

16

3,0

55

22

4,0

62

25

5,0

66

25

6,0

79

29

8,0

89

32

10,0

102

32

12,0

115

35

16,0

131

37

20,0

151

37

25,0

h9

h9

h9

Item #

Item #

Item #

D175 0300 D175 0400 D175 0500 D175 0600 D175 0800 D175 1000 D175 1200 D175 1600 D175 2000 D175 2500

D176 0300 D176 0400 D176 0500 D176 0600 D176 0800 D176 1000 D176 1200 D176 1600 D176 2000 D176 2500

D175 0004

D176 0004

Vc

Vc

Pieces

D355 0500 D355 0600 D355 0800 D355 1000 D355 1200 D355 1600 D355 2000

Sets 6,0, 8,0, 10,0, 12,0

4

Materials

HB

N/mm2

1.1 Mild steels, magnetic soft steel 1.2 Free cutting, structural, unalloyed 1.3 Plain carbon, low alloyed 1.4 Alloy steels harden. / tempered 1.5 Alloy steels harden. / tempered 1.6 Hardened, heat treated, high tensile alloy 1.7 Hardened Steel 45-50 Rc

<200 <200 <300 <250 <350 <420 <550

>200 <400 >350 <700 >350 <850 >500 <850 >850 <1200 >1500

10 30 20 30 30 12 <12

2.1 Free machining 2.2 Austenitic 2.3 Ferritic + martensitic

<250 <250 <250

<850 <850 <850

25 20 20

3.1 Lamellar graphite (Grey soft) 3.2 Lamellar graphite (Grey hard) 3.3 Nodular (spheroidal) graphite & malleable

<150 <300 <200

<500 <1000 <700

4.1 Pure Titanium 4.2 Titanium alloys

<250 >250

5.1 Nickel alloys 5.2 Nickel alloys

1.0 Steels

% Elong.

Material eg.

Feed No.

Feed No.

Vc

Feed No.

35 25 20 15 15 12 10

4 4 4 4 3 3 3

35 25 20 15 15 12 10

4 4 4 4 3 3 3

80 80 65 60 50 50 40

5 5 5 5 4 4 4

X8CrNiS18-9 X5CrNi18-10 X20Cr13

10 15 10

3 2 2

10 15 10

3 2 2

25 20 25

3 2 2

10 10 10

GG10, GG40 GGG40, GGG80

30 20 20

5 4 4

30 20 20

5 4 4

70 70 70

5 4 4

<850 >850

20 20

Ti99.7, Ti99.8 TiCu2, TiAl6V4

-

-

-

-

40 40

5 5

<250 >250

<850 >850

25 25

Ni38, Ni54, NiCr16FeTi

12 -

1 -

12 -

1 -

25 25

4 4

6.1 Pure Copper (elec.trolytic copper) 6.2 Short chip Brass, Phosphor Bronze, gun metal 6.3 Long chip Brass, Bronze

<120 <200 <200

<400 <700 <700

12 12 12

SF-Cu G-CuSn12Ni G-CuPb20Sn

50 30 40

4 4 4

50 30 40

4 4 4

200 150 130

4 4 4

7.1 Aluminium unalloyed 7.2 Magnesium unalloyed 7.3 Al Alloyed Si < 1.5 % 7.4 Al Alloyed 1.5 % < Si < 10% 7.5 Al Alloyed > 10% Si 7.6 Magnesium alloys

<100 <150 <120 <120 -

<350 <350 <500 <400 <400 <400

15 15 15 10 N N

Al99.5 Al99.85Mg0.5 AlMg1.5 AlSi10Mg AlSi17Cu4 MgAl3Zn

50 50 50 35 30 30

5 4 4 4 4 4

50 50 50 35 30 30

5 4 4 4 4 4

200 200 200 180 180 140

5 4 4 4 4 4

8.1 Plastics, Thermoplastics, Polyethylene

<340

<50

N

ABS, PVC, Polycarbonate

30

4

30

4

60

4

2.0 Stainless Steels

3.0 Cast Irons

4.0 Titaniums 5.0 Nickel

6.0 Coppers

7.0 Aluminiums

8.0 Plastics

Feed No. 1 2 3 4 5

3.0 0.030 0.040 0.050 0.060 0.080

4.0 0.040 0.050 0.060 0.080 0.100

5.0 0.045 0.055 0.065 0.085 0.110

Feed Table (f) (mm/rev) Ø 6.0 8.0 0.050 0.060 0.060 0.080 0.080 0.100 0.100 0.120 0.120 0.150

Notes: For calculating revolutions per minute, apply hole diameter For calculating feed, apply large end diameter

10.0 0.080 0.100 0.120 0.150 0.200

RFe100 C10, C15, ST37, ST52 C45, C92D, D95-S 41CrMo4, 36CrNiMo4, X155CrVMo12-1, 90MnV8

12.0 0.080 0.100 0.120 0.150 0.200

16.0 0.100 0.120 0.150 0.200 0.250

20.0 0.150 0.200 0.250 0.300 0.400

Legend n = rev. per minute vc = cutting speed (m/min) f = feed (mm/rev) vf = feed rate (mm/min) z = no. cutting edges

FORMULAS n = (vc × 1000) / (Ø × π) vc = (Ø × π × n) / 1000 vf = f × n

499980430_0811

0004

/2526220-10  

http://tradetools.co.nz/webimages/2526220-10.pdf

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