275
The design of each product is done to satisfy customer’s needs.
R&D CENTER Research and development activity takes places on different levels: • Basic Research: preliminary studies aimed at acquiring knowledge on cutting materials. • Applied Research: to acquire new knowledge on tools applications, on new geometries, on materials and on new coatings. • Experimental Development: systematic activities based upon Silmax knowledge acquired through the research and the tests experience, in order to develop or improve tools, enhancing, with new products, the customers production process and developing systems and services.
Fonte Delcam
These activities allow us to become a partner of choice for customers looking at performance and process improvements. We have developed different solutions for every industry, making available to our customers the most advanced know how in cutting technology for both standard and special tools.
Fonte Delcam
Silmax is equipped with CAD instruments as well as with the most advanced graphic simulators VSHFLÀFDOO\GHVLJQHGIRUWRROVVKDUSHQLQJDQG with a dedicated architecture for the complete engineering of the production process. During the designing phase all tools characWHULVWLFVDUHGHÀQHGIURPWKHJHRPHWU\WRWKH type of grinding wheel to be used, and the sharpening machining parameters.
276
Silmax studies, develops and produces a wide range of special tools in Carbide and high speed steel. Silmax grants you the opportunities in case you have to realize a tool starting either from GUDZLQJVRUIURPDVSHFLÀFDSSOLFDWLRQ Developing a special tool, starting from the assimilated (understood) knowledge with the activities of Research and Development, allows to realize an optimized product in terms of base materials, tool’s geometry, surfaces treatment, PVD coating. This activity put into effect the processing of costs budget, delivery times, design, cutting parameters, technical assistance. Our productions are well known in all the different industrials sectors: energy, aerospace, medical, oil-hydraulics and in all the sectors where there is the need of chip removal machining.
277
Our Technical Assistance Department is always available for all the customer’s needs. Our high skilled technicians are able to analyze and solve every working problem and to optimize the use of our tools. Moreover Silmax has organized the customer VHUYLFHVDOVRLQWKHLUIRUHLJQRIÀFHV
INFORMATION APPLICATION FORM To better answer your requests we have arranged a technical information form, which can be easily downloaded from our web site (www.silmax.it) and sent to the Technical Assistance Department.
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1,20 1,40 1,70 1,90 2,10 2,40 2,60 2,90 3,30
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d1
(*) € € € € € € € €
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For its customers, Silmax proposes a high standDUG5HVKDUSHQLQJDQG5HFRDWLQJVHUYLFH We grant the reconditioning of your tools in a short time, with performances comparable to WKHRQHVRIWKHQHZWRROV The use of: new generation CNC sharpening machines, advanced measurement systems,
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Z3 (*) € € € € € € € € € €
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279
J
d
1 2
D a
8
9
3 4
l l1 L
10
5 14
O 6
13 11
7
12
Descrizione
Description
Description
Beschreibung
D
Diametro della Fresa
Mill diameter
Diamètre de fraise
Fräser-Durchmesser
d
Diametro del Gambo
Shank diameter
Diamètre de queue
Schaft-Durchmesser
L
Lunghezza totale
Overall lenght
Longueur totale
Gesamtlänge
l
Lunghezza di taglio
Lenght of cut
Longueur de coupe
Schnittlänge
l1
Lunghezza ribassata
Neck Length
Longueur degagé
Abgesetzte Länge
a
Ribassamento del codolo
Neck
Degagement
Abgesetzter Schaft
Cr
Raggio di raccordo
Corner radius
Rayon Torique
Übergangsradius
r
Raggio
Radius
Rayon
Radius
z
Numero dei denti
Number of teeth
Nombre de dents
Zähnezahl
Angolo d’elica
Helix angle
Angle d’hélice
Drallwinkel
Angolo di spoglia radiale superiore (Mordente)
Radial rake angle
Angle de coupe radial
Radialer Spanwinkel
1
Larghezza spoglia radiale primaria
Radial primary relief width
Dépouille radiale
Breite der Hauptschneidenfase
2
Larghezza del dente
Land width
Contre-dépouille
Fasenbreite
3
Angolo prima spoglia radiale
Radial primary relief angle
Angle de dépouille radiale
Radialer Freiwinkel der Hauptschneide
4
Seconda spoglia radiale
Radial secondary clearance angle
Angle de contre-dépouille radiale
Radialer zusätzlicher Freiwinkel der Hauptschneide
5
Larghezza spoglia assiale primaria
Axial primary relief width
Largeur de dépouille axiale Breite der Axialfase
6
Gola
Flute
Goujure
7
Vano truciolo
Chip room
Poche à copeaux
Grosser Spanraum
8
Piano di Mordente
Cutting face
Face de coupe
6SDQÁlFKH
9
Angolo di rastremazione frontale
End cutting edge concavity angle
Concavité en bout de fraise
Nebenschneidenwinkel
10
Gola frontale
End gash
Dégagement axial copeaux
Vordere Spannut
11
Prima spoglia frontale
Axial primary relief angle
Angle de dépouille axiale
Axialer Hauptschneidenwinkel
12
Angolo seconda spoglia frontale
Axial secondary clearance angle
Contre-dépouille axiale
Axialer zusätzlicher Freiwinkel
13
Denti frontali
End teeth
Fond de dent
Stirnschneiden
14
Angolo di spoglia frontale superiore (Mordente)
Axial rake angle
Angle de coupe axial
Axialer Spanwinkel
O J
280
Spannut
Cr
Number of teeth 1 tooth: ODUJHFKLSURRP*RRGUHVXOWVLQSURÀOLQJ8VHGIRU axial drilling in aluminium alloys and materials with long chips.
2 teeth: large chip room and small core diameter. Good results in roughing and in slot milling. Also used for plunging and drilling in aluminium alloys and materials with long chips. 3 teeth: the most universal milling tool. Excellent choice for slot milling.
4 teeth: universal geometry, used for side and face milling and peripheral milling. High tool rigidity due to the large core diameter. More teeth: PDLQO\IRUÀQLVKLQJJRRGVXUIDFHÀQLVK,WDOORZV a high feed rate. Soft cut because there is always a tooth in the workpiece material.
Type of machining
Side milling
Face milling
Side and face milling
Slot milling
Plunging
Diagonal plunging
Pocketing
Helical interpolation
3D Copy milling
Trochoidal milling
Feed direction
Raw material
&KLSEUHDNHUSURÀOHV
Front geometry
281
CARBIDE
Version DIN
HSS
Short
Long
Short
Regular
Medium
Long
6527K
6527L
327
844K
Silmax Norm
844L
D.
d
L
l
l
z=2/3
z=4
l
l
z=2/3
z=4
38
6
3
38
d
L
3
d
L
l
d
L
l
7
6
48
4
6
51
7
8
6
49
5
6
6
49
5
L
l
d
L
l
7
6
54
10
52
8
6
56
12
6
52
8
6
56
12
1
3
38
3
3
1,5
3
38
3
4
2
3
38
3
4
2
6
50
3
4
2,5
3
38
3
4
2,5
6
50
3
4
3
3
38
4
5
3
38
7
8
3
6
50
4
5
6
57
7
8
3,5
6
50
4
6
6
57
7
10
4
6
54
5
8
6
57
8
11
6
51
7
6
55
11
6
63
19
5
6
54
6
9
6
57
10
13
6
52
8
6
57
13
6
68
24
6
6
54
7
10
6
57
10
13
6
52
8
6
57
13
6
68
24
7
8
58
8
11
8
63
13
16
10
60
10
10
66
16
10
80
30
8
8
58
9
12
8
63
16
19
10
61
11
10
69
19
10
88
38
9
10
66
10
13
10
72
16
19
10
61
11
10
69
19
10
88
38
10
10
66
11
14
10
72
19
22
10
63
13
10
72
22
10
95
45
12
70
13
12
79
22
12
102
45
12
73
16
12
83
26
12
110
53
12
73
16
12
83
26
12
110
53
12
73
16
12
83
26
12
110
53
12
73
16
12
83
26
12
110
53
16
79
19
16
92
32
16
123
63
16
79
19
16
92
32
16
123
63
16
79
19
16
92
32
16
123
63
16
79
19
16
92
32
16
123
63
11 12
12
73
12
16
12
83
22
26
13 14
14
75
14
18
14
83
22
26
15 16
16
82
16
22
16
92
26
32
17 18
18
84
18
24
18
92
26
32
19 20
92
20
26
20
104
32
38
6 10 10 12 12 16 16
62 75 83 96 96 105 105
18 25 33 39 39 45 45
20
88
22
20
104
38
20
121
55
20
141
75
22
20
88
22
20
104
38
20
121
55
20
141
75
24
25
102
26
25
121
45
25
166
90
25
25
102
26
25
121
45
25
166
90
26
25
102
26
25
121
45
25
166
90
28
25
102
26
25
121
45
25
141
65
25
166
90
30
25
102
26
25
121
45
25
141
65
25
166
90
32
32
112
32
32
133
53
32
158
78
32
186
106
40
40
130
38
40
155
63
40
217
125
45
40
130
38
40
217
125
50
50
147
45
50
252
150
20
282
d
50
177
75
25
141
65
µm = 0,001 mm
D mm m7 d11 e8 f8 h5 h6 h7 h8 h9 h10 h11 h12 js16 k10 k11 k12 P9 H11
D mm z9
1÷3
3÷6
6 ÷ 10
10 ÷ 18
18 ÷ 30
30 ÷ 50
50 ÷ 80
80 ÷ 120
+12
+16
+21
+25
+29
+34
+41
+48
+2
+4
+6
+7
+8
+9
+11
+13
-20
-30
-40
-50
-65
-80
-100
-120
-80
-105
-130
-160
-195
-240
-290
-340
-14
-20
-25
-32
-40
-50
60
-72
-28
-38
-47
-59
-73
-89
-106
-126
-6
-10
-13
-16
-20
-20
-28
-35
-43
-53
0
0
0
0
0
0
0
0
-4
-5
-6
-8
-9
-11
-13
-15
0
0
0
0
0
0
0
0
-6
-8
-9
-11
-13
-16
-19
-22
0
0
0
0
0
0
0
0
-10
-12
-15
-18
-21
-25
-30
-35
0
0
0
0
0
0
0
0
-14
-18
-22
-27
-33
-39
-46
-54
0
0
0
0
0
0
0
0
-25
-30
-36
-43
-52
-62
-74
-87
0
0
0
0
0
0
0
0
-40
-48
-58
-70
-84
-100
-120
-140
0
0
0
0
0
0
0
0
-60
-75
-90
-110
-130
-160
-190
-220
0
0
0
0
0
0
0
0
-100
-120
-150
-180
-210
-250
-300
-350
+300
+375
+450
+550
+650
+800
+950
+1100
-300
-375
-450
-550
-650
-800
-950
-1100
+40
+48
+58
+70
+84
+100
+120
+140
0
0
0
0
0
0
0
0
+60
+75
+90
+110
+130
+160
+190
+220
0
0
0
0
0
0
0
0
+100
+120
+150
+180
+210
+250
+300
+350
0
0
0
0
0
0
0
0
-6
-12
-15
-18
-22
-26
-32
-37
-31
-42
-51
-61
-74
-88
-106
-124
+60
+75
+90
+110
+130
+160
+190
+220
0
0
0
0
0
0
0
0
1÷3
3÷6
6 ÷ 10
10 ÷ 14
14 ÷ 18
18 ÷ 24
24 ÷ 30
30 ÷ 40
+51
+65
+78
+93
+103
+125
+140
+174
+26
+35
+42
+50
+60
+73
+88
+112
283
Rm (N/mm2)
HV 10 (Vickers)
HB (Brinnel)
240 255 270 285 305 320 335 350 370 385 400 415 430 450 465 480 495 510 530 545 560 575 595 610 625 640 660 675 690 705 720 740 755 770 785 800 820 835 860 870 900 920
75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 165 170 175 180 185 190 195 200 205 210 215 220 225 230 235 240 245 250 255 260 268 272 280 287
71 76 81 86 90 95 100 105 109 114 119 124 128 133 138 143 147 152 157 162 166 171 176 181 185 190 195 199 204 209 214 219 223 228 233 238 242 247 255 258 266 273
284
HRC (Rockwell)
22 23 24 25 26 27 28
Rm (N/mm2)
HV 10 (Vickers)
HB (Brinnel)
HRC (Rockwell)
940 970 995 1020 1050 1080 1110 1140 1170 1200 1230 1260 1300 1330 1360 1400 1440 1480 1530 1570 1620 1680 1730 1790 1845 1910 1980 2050 2140
293 302 310 317 327 336 345 355 364 373 382 392 403 413 423 434 446 458 473 484 497 514 527 544 560 578 596 615 639 655 675 698 720 745 773 800 829 864 900 940
278 287 295 301 311 319 328 337 346 354 363 372 383 393 413 413 424 435 449 460 472 488 501 517 532 549 567 584 607 622
29 30 31 32 33 34 35 36 37 38 39 40 41 42 44 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68
Side milling
Face milling
Side and face milling
Slot milling
Plunging
Diagonal plunging
Pocketing
Helical interpolation
Conventional milling. The width of the chip starts at zero and increases to a maximum at the end of the cut. Tendency to push workpiece away. Tool edge slides instead of FXWWLQJFDXVLQJKLJKIULFWLRQEHWZHHQWRROÁDQN face and material.
Climb milling. The tooth meets the work at the top of the cut, SURGXFLQJWKHWKLFNHVWSDUWRIWKHFKLSÀUVW (IÀFLHQWFXWWLQJ/RQJDQGUHOLDEOHWRROOLIH %HWWHUVXUIDFHÀQLVK
285
Description
Units of measurement
Revolution per minute
Formulas
[Rpm]
Feed speed
Vf = Fz u z u n
[mm/min]
Cutting speed
Vc u 1000 D u3
n=
[m/min]
D u3 un 1000
Vc =
Feed per revolution
[mm]
f = fz u z
Feed per tooth
[mm]
fz =
Vf z un
[cm3/min]
Q=
ae uap uVf 1000
Chip removal rate
(IIHFWLYHGLDPHWHUIRUEDOOQRVHHQGPLOOVDWDVHWDQJOHǃ ap ିଵ ቀିଶ ቁቃ ଶ
ae
[mm] β
deff
ܽቀିଶ ቁቃ (IIHFWLYHGLDPHWHUIRUEDOOQRVHHQGPLOOVDWDVHWDQJOHǃ ܦඥ ܦቂߚ ܽ െ ିଵ ܦെ
Deff = ܦ
ݎܥ ݎܥ ඥ ܦቂߚ ܽ െ ିଵ ܽቀଶିଶ
ቂߚ ቁቃ
ିଵ ቀ
െ
ቁቃ
ap
[mm]
ae
deff
ିଵ
ቀ െ ቁቃ ቂߚ ܦെ ݎܥ ݎܥ (IIHFWLYHGLDPHWHUIRUFRUQHUUDGLXVHQGPLOOVDWDVHWDQJOHǃ ඥ ܽ ܦെ ܽଶ ap
Deff = ܦെ
Parameter
ݎܥ
ݎܥ
ቂߚ
ିଵ ቀ
െ
Units of measurement
ቁቃ [mm]
ap ae
deff
Description
D
[mm]
End mill diameter
z
[Nr]
Number of teeth
Cr
[mm]
Corner radius
ae
[mm]
Cutting width
ap
[mm]
Cutting depth
Deff
[mm]
Effective engagement diameter
E 286
[degrees]
Setting angle
ae
deff β
ቂߚ
Deff = ܦ
During the milling, a careful check of the cutting edge, increases the tool’s life. The evaluation of different forms of wear allows to identify the type of wear, and to act on the appropriate technologic parameters.
FLANK WEAR:
7KHÁDQNZHDUFRQVLVWVLQWKHUHPRYDORIWKHPDWHULDORQWKH rake of the tool. The wear of the surface goes together with WKHFXWWLQJGLUHFWLRQDQGLWLVGHÀQHGDVZLGWKRIWKHZHDU VLJQ9E ,ILW·VWRRKLJKUHGXFHÀUVWWKHFXWWLQJVSHHG9F than the cutting width (ae).
CRATER WEAR:
The crater wear is a removal crater shaped of the material on the surface of the superior rake surface. Reduce the cutting speed (Vc).
CHIPPING:
The chipping of the cutting edge is determined by a mechanic over stress, this can take place on the rake VXUIDFHRURQWKHVXSHULRUUDNH5HGXFHÀUVWWKHSURJUHVVI] than the depth of the cut (ap).
DEFORMATION:
Deformation is basically linked to the thermal over-charge for the cutting thread. First of all reduce the cutting speed (Vc), then the progress I] DQGWKHQFXWWLQJZLGWKDH
BUILT-UP EDGE:
BUILT-UP EDGE is the phenomenon why the particles of the material processed adhere to the cutting edge of the tool. 5HGXFHWKHFXWWLQJVSHHG9F DQGRUWKHSURJUHVVI] Increase the actual cutting angle. ,QFUHDVHWKHFRRODQWÁRZ
287
TYPE Futura Nano
Alcrona Pro
Latuma
X-Hard
Alnova
Diamond
X-Alu
X-Pro
HMF
HMG/NIG
HMC
HMH
HMY
HMD
HMW
HMX
Chemical composition
TiAlN
AlCrN
AlTiN
TiSiN
AlCrN based
Diamond
TiAlN+WC
AlCrN
Hardness (HV05)
3300
3200
3300
3600
3200
8000-10000
3000
3200
7KLFNQHVVǍP
1-4
2-4
1-4
2-4
2-4
6-12
2-4
2-4
Max. Service temperature
900
1200
900
1200
1200
600
800
1200
Application
STD
HRC
&2/285 DTC
DIAMOND
$/8
DRILLS
HPC/DTC/ HRC/DTC/ STD &2/285
MACHINING
Steel
Futura Nano
Alcrona Pro
Latuma
X-Hard
Alnova
Diamond
X-Alu
X-Pro
HMF
HMG/NIG
HMC
HMH
HMY
HMD
HMW
HMX
zz
zzz
zzz
zz
z
zz
zzz
zzzz
z
zz
zzz
zzz
z
zz
zzz
zz
Hardened Steel
Stainless Steel
Superalloys
z
z
Aluminium
288
zz
zz
zzz
zz
zz
zz
zzz
Graphite
Plastics
zzz
z
z
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Silmax, pioneer in introducing PVD coating, after 30 years of partnership with Balzers, has realized its own coating department. The new department includes the washing plant, the Balzers’ technology coating plant and the new automatized wharehouse. PVD coating process provides 3 main under-process: • Surfaces preparation • Coating • Quality control SURFACES PREPARATION Silmax provides a cleaning line fully automatized including 2 ultrasound washing vats, 1 osmosing rinse vat and one drying system. COATING Silmax is committed to Oerlikon Balzers technology, using the newly owned INGENIA system. The plant features its endowments: • SPEED Quick loads, from 2 to 3 hours, allows up to 8 loads a day. • PRECISION Extraordinary precision in checking the thickness and the adhesion of the coating • FLEXIBILITY +LJKO\ÁH[LEOHDVIDUDVLWFRQFHUQVFRDWLQJV and relevant technologies, load and handling.
QUALITY CONTROL To grant the top quality of its coatings, Silmax KDVHVWDEOLVKHG precise testing procedures. Inside each coating load at different levels, are included some samples that will EHVXEPLWWHGWRD further check to pin down on: • The correct coating adhesion to the underlayer through indentation • The correct coating thickness using Calotest and the microscope. Only after the positive result of tests, tools are DSSURYHGWREHGHOLYHUHGWRFXVWRPHUV
Silmax PVD Center in Lanzo Torinese
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Silmax SpA has recently integrated a new ERP system for the business processes management. One of the most important is the customer information, which allows the customer to enter in their private area and check anytime: purchase orders status, delivery notes, invoices, statistics.
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Headquarters and production plant Via Fucine, 9 – 10074 Lanzo Torinese (TO) – ITALIA GPS: N. 45°16’50” E. 7°28’20” www.silmax.it
E-mail
Phone numbers
Fax
[email protected]
+39.0123.940301
+39.0123.940399
[email protected]
+39.0123.940332
+39.0123.940339
[email protected]
+39.0123.940326
+39.0123.940339
[email protected]
+39.0123.940301
+39.0123.940343
[email protected]
+39.0123.940301
+39.0123.940343
[email protected]
+39.0123.940301
+39.0123.940343
General Info Sales Administration Purchase Technical support Quality
SILMAX GMBH Mergenthaleralle 10-12 D-65760 Eschborn Germany Tel. +49 6196400840 Fax +49 6196400910 www.silmax.com email:
[email protected]
SILMAX BEIJING REPRESENTATIVE OFFICE Room 731, Moma Building Chaoyang N., Road 199 100022 Beijing – P.R. China Tel. +86 1085970667 Fax +86 1085970667 www.silmax.com email:
[email protected]
SILMAX TOOLS INDIA PVT. LTD. #3160, HAL 2nd Stage 560 008 Bangalore Karnataka – India Tel. +91 8025252555 Fax +91 8025252555 www.silmax.in email:
[email protected]
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Code
Section
Chapter
005F 011F 013 013A 013EV 013EVK 013F 013F 013R 013S 015 015s 017 020B 023A 023F 025 031F 038A 038F 041A 043 052F 060B 075F 080F 08w 093A 093F 09w 101 102 105T 106 106 Cr 107 108 108 109 10A 10B 10C 10D 10E 10F 10G 10GH 111 111 111 111 Cr 111 Cr 113 113 113 Cr 113A
Altri HSS HSS HSS Carbide Carbide Carbide HSS HSS HSS HSS Carbide Carbide HSS HSS HSS HSS HSS HSS HSS HSS Carbide HSS HSS HSS HSS Carbide HSS HSS Carbide HSS HSS Altri Carbide Carbide Carbide Carbide HSS Carbide HSS HSS Altri Altri HSS HSS Altri Altri Carbide Carbide HSS Carbide Carbide Carbide HSS Carbide HSS
Altre Frese SGR SGR PM Evolution Evolution STD SGR SGR PM SGR Alu Colour SGR PM SGR SGR SGR PM SGR PM HRC SGR SGR SGR SHELL HRC PM SGR HRC SHELL SHELL Altre Frese STD STD STD STD FIN STD SHELL SHELL Altre Frese Altre Frese SHELL SHELL Altre Frese Altre Frese Micro STD FIN *UDÀWH STD STD FIN STD PM
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Page 228 173 174 159 9 9 131 175 176 158 173 81 69 180 161 179 180 177 157 172 160 55 181 181 182 216 49 161 178 49 217 219 228 123 123 116 117 193 117 222 223 230 230 220 221 231 232 104 121 197 89 122 124 199 125 163
Code
Section
Chapter
Page
113EV 113R 114 115 115s 115s Cr 116 117 118 118 118 Cr 118A 119 119 Cr 120 120 Cr 121 121 121 122 122 123 123 123A 124 124 Cr 125 126 128 130 131 131 131 138 142 143 143 Cr 144 145 145 146 147 148 148 149 151 152 152 152 Cr 153 153 Cr 155 160 165s 171 171
Carbide HSS Carbide HSS Carbide Carbide Carbide Carbide Carbide HSS Carbide HSS Carbide Carbide Carbide Carbide Carbide Carbide HSS Carbide Carbide Carbide HSS HSS Carbide Carbide HSS Carbide HSS Carbide Carbide Carbide HSS HSS Carbide Carbide Carbide Carbide Carbide HSS HSS Carbide Carbide HSS Carbide Carbide Carbide HSS Carbide Carbide Carbide Carbide HSS Carbide Carbide Carbide
Evolution FIN Micro FIN Alu Alu Micro Colour Colour FIN Colour PM Colour Colour Colour Colour *UDÀWH Micro FIN *UDÀWH Micro STD FIN PM Colour Colour FIN STD FIN STD Micro STD FIN FIN HRC HRC HRC HRC HRC FIN FIN HRC HPC FIN HRC HPC HPC FIN HPC HPC HPC HPC FIN Alu Micro STD
11 199 108 198 78 78 109 69 67 200 67 164 64 64 63 63 87 106 204 88 107 126 207 165 63 63 206 127 206 130 105 129 203 194 51 53 53 51 54 208 208 58 34 209 58 29 31 211 31 33 33 35 211 79 104 119
Code
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Chapter
171 171 Cr 1712 172 173 173 174 175 Cr 175s 175s Cr 176 179C 179C 180 190 191 192 193 193 193A 194 195 196 197 198 1W5 210 220 301 302 3030A 3031A 3050A 3051A 3081A 311 312 320 321 322 330 350 351 351 351H 352 353 355 356 357 357 357H 358 358 358H 361
HSS Carbide HSS Carbide Carbide HSS HSS Carbide Carbide Carbide Carbide Carbide Carbide HSS Carbide Carbide Carbide HSS Carbide HSS Carbide Carbide Carbide Carbide Carbide Altri Altri Altri Altri Altri Carbide Carbide Carbide Carbide Carbide Altri Altri Altri Altri Altri Altri Altri Carbide Altri Altri Altri Altri Altri Altri Carbide Altri Altri Carbide Altri Altri Altri
FIN STD FIN Micro STD FIN FIN *UDÀWH Alu Alu STD Alu *UDÀWH SHELL HPC HPC HPC FIN DTC PM DTC DTC DTC DTC DTC Altre Frese BAR BAR 873 873 DRILLS DRILLS DRILLS DRILLS DRILLS 873 873 V Plus 873 873 V Plus PCC DRILLS PCC PCC PCC PCC PCC PCC DRILLS PCC PCC DRILLS PCC PCC PSV
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362 363 367 3825 3835 401 401 402 403 405 410 420 430 440 450 460 470 475 480 490 495 503 700 701 710 720 721 722 724 727 729 730 731 731 733 734 735 737 737 737 737 737 738 739C 739C 747 750 765 765s 90 HMM
Altri Altri Altri Carbide Carbide Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Altri Carbide Carbide Carbide Carbide Carbide Carbide Carbide Carbide Carbide HSS Carbide HSS Carbide Carbide HSS Carbide Carbide Carbide Carbide HSS HSS Carbide Carbide Carbide HSS Carbide Carbide Carbide Altri
PSV PSV PSV DRILLS DRILLS FSB Lime FSB FSB Lime Lime Lime Lime Lime Lime Lime Lime Lime Lime Lime Lime ALR Alu Alu HPC HPC Micro Micro Micro HRC HRC FIN STD FIN HPC HPC FIN Colour *UDÀWH Micro STD FIN FIN Alu *UDÀWH STD FIN *UDÀWH Alu HPC BAR
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