Laser Cutting Machine

Laser Cutting Machine

Suresh Indu Lasers Pvt. Ltd. is one of the leading manufacturers of Laser Engraving Cutting Machine that is available in Large Format 1225 / 1318. This laser engraving cutting machine is consisting of a controller and laser equipment.

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Automobile and Marine Transmissions

Laser Metal Cutting Machine

Suresh Indu Lasers Pvt. Ltd. is manufacturer of YAG: Laser Metal Cutting Machine that is made with the latest technology. This YAG: Laser Metal Cutting Machine is mainly used to cut or engrave nonmetal, high speed, high precision, easy to operate.

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Casting Products Industry

Fiber Laser Metal Cutting Machine

Suresh Indu Lasers Pvt. Ltd. has created a niche amongst trusted manufacturer of fiber laser metal cutting machine. These fiber laser metal cutting machines have fiber laser generator ensures high precision and high speed cutting.

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Global Energy Market Supplier

Fiber Laser Marking Machine

Suresh Indu Lasers Pvt. Ltd. is a manufacturer of Fiber laser marking machines that is available in Single Head Marker, Dual Head Marker, Laser Marker with automation, Hologram Marker. This product is manufactured from finest quality material

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The Future GPI

Customer Relationship

Customer Relationship Building - A Key to Our Success To our customers we offer a near endless stream of support. It is our goal to keep our customers up and running. We have a huge network of talented suppliers and distributors.

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Optical Parts

Focus Lens
Focus Lens
Zinc selenide focus lens are widely used in CO2 laser process, including cutting, drilling, carving & other laser system. With the imported material, our products can withstand high power density; and the film is solid, with which the lens are resistant to wipe. Because of the double-side film, the filterability of the light (the wavelength is 10.6μm) can reach 99%.
 
Specifications
Material: Zinc Selenide,Ge
Design Wavelength: 10.6μm
Focal Length Tolerance: ±1%
Diameter Tolerance: +0.0/-0.1mm
Thickness Tolerance: ±0.1mm
Surface Accuracy: λ/2@632.8nm
Surface Quality: 20-10
Centration: <3'
Clear Aperture: >90%
Beveling: <0.2×45°
Coating: AR@10.6um,BR AR@8-14um
 

 
REFLECTIVE MIROR
CO2 Laser Mirror
Focus Lens
 
Reflect mirror is one of the most important elements in light transmission system, it can be used as tail mirror and folding mirror in laser cavities, outside the cavities, it plays the role of light-bent machine. Mirrors can be made by various materials.
Mo mirror can be used in harsh environment, also for a long time, can stand high-power and resistant to wipe, but the reflectivity is not so high.
Silicon is used most as the material of mirror, it cost lower, durable, and with stable thermal properties. With gold plated and protection film on the gold, the surface is difficult to be damaged, it also enhance the reflectivity and durable. The fold-plated silicon mirror can stand high –power irradiancy.
 
Process spec. of laser lens
Material: gold-plated silicon, Moly
Dimension Tolerance: +0.0/-0.1mm
Thickness Tolerance: ±0.1mm
Surface Accuracy: λ/4@632.8nm
Surface Quality: S1:20-10,S2:Fine Ground
Parallelism: <1'
Clear Aperture: >90%
Coating: protective film
 
Reflect Mirror
No. Diameter Thickness incident light material coating
mm inch mm inch
MS-12-2 12 0.47 2 0.08 45 silicon Golden & Protection film
MS-12.7-2 12.7 0.50 2 0.08 45 silicon Golden & Protection film
MS-13-2 13 0.51 2 0.08 45 silicon Golden & Protection film
MS-15-2 15 0.59 2 0.08 45 silicon Golden & Protection film
MS-15-3 15 0.59 3 0.12 45 silicon Golden & Protection film
MS-16-2 16 0.63 2 0.08 45 silicon Golden & Protection film
MS-16-3 16 0.63 3 0.12 45 silicon Golden & Protection film
MS-19-3 19 0.75 3 0.12 45 silicon Golden & Protection film
MS-20-3 20 0.79 3 0.12 45 silicon Golden & Protection film
MS-25-3 25 0.98 3 0.12 45 silicon Golden & Protection film
MS-25.4-3 25.4 1.00 3 0.12 45 silicon Golden & Protection film
MS-30-3 30 1.18 3 0.12 45 silicon Golden & Protection film
MS-38.1-4 38.1 1.50 4 0.16 45 silicon Golden & Protection film
MS-38.1-5 38.1 1.50 5 0.20 45 silicon Golden & Protection film
MS-38.1-6 38.1 1.50 6 0.24 45 silicon Golden & Protection film
MS-38.1-9 38.1 1.50 9 0.35 45 silicon Golden & Protection film
MS-50-5 50 1.97 5 0.20 45 silicon Golden & Protection film
MS-50.8-5 50.8 2.00 5 0.20 45 silicon Golden & Protection film
MS-50.8-6 50.8 2.00 6 0.24 45 silicon Golden & Protection film
MS-50.8-9 50.8 2.00 9 0.35 45 silicon Golden & Protection film
MS-50.8-10 50.8 2.00 10 0.39 45 silicon Golden & Protection film
MM-20-3 20 0.79 3 0.12 45 Molybdenum None
MM-25-3 25 0.98 3 0.12 45 Molybdenum None
MM-30-3 30 1.18 3 0.12 45 Molybdenum None
MM-38.1-5 38.1 1.50 5 0.20 46 Molybdenum None
MM-38.1-6 38.1 1.50 6 0.24 47 Molybdenum None
MM-50.8-5 50.8 2.00 5 0.20 48 Molybdenum None
MM-50.8-6 50.8 2.00 6 0.24 49 Molybdenum None
MM-76.1-6.35 76.1 3.00 6.35 0.25 50 Molybdenum None
MM-50.8-7.6 76.1 3.00 7.6 0.30 51 Molybdenum None
MM-76.1-10.2 76.1 3.00 10.2 0.40 52 Molybdenum None
MM-101.6-10.2 101.6 4.00 10.2 0.40 53 Molybdenum None
 

 
Scan Lens
Scan Lens
 
CO2 laser system scan lens and light expander are widely used in laser marking, engraving, drilling machines, etc.
The Single-chip Flat-field Scanning Mirror of SIL has optimized the wide-angle and long focal-length light path, it is widely applied in wide scan range situation. The absorbability of Zinc Selenide to the infrared wavelengths is low, and can flitter visible light; it is the top choice of beam expander lens.
 
Single-chip CO2 F-Theta lens
No. material Scan 
scope
Focal length  Incident light Max. incident
 light angle
Dia. Of laser
 beam
wavelength diameter
-
-
-
(mm)
(mm)
(°)
-
(μm)
(mm)
SL-70*70-100-10.6
ZnSe
70*70
100
14
30
0.15
10.6
48
SL-110*110-150-10.6
ZnSe
110*110
150
14
30
0.2
10.6
48
SL-140*140-200-10.6
ZnSe
140*140
200
14
30
0.2
10.6
48
SL-175*175-250-10.6
ZnSe
175*175
250
14
30
0.25
10.6
48
SL-210*210-300-10.6
ZnSe
210*210
300
14
30
0.25
10.6
48
SL-300*300-430-10.6
ZnSe
300*300
430
16
20
0.3
10.6
48
SL-400*400-590-10.6
ZnSe
400*400
590
16
20
0.35
10.6
48
SL-500*500-623-10.6
ZnSe
500*500
623
16
22
0.4
10.6
48
SL-600*600-700-10.6
ZnSe
600*600
700
16
20
0.45
10.6
48
SL-300*300-450-10.6-D65
ZnSe
300*300
450
28
20
0.35
10.6
65
SL-400*400-545-10.6-D65
ZnSe
400*400
545
28
20
0.4
10.6
65
SL-500*500-716-10.6-D65
ZnSe
500*500
716
28
22
0.4
10.6
65
SL-35*35-100-10.6-D32
ZnSe
35*35
100
10
11
0.12
10.6
32
SL-50*50-100-10.6-D32
ZnSe
50*50
100
10
15
0.12
10.6
32
 

 
Beam Expander
Beam Expander
 
CO2 laser system scan lens and light expander are widely used in laser marking, engraving, drilling machines, etc.
The Single-chip Flat-field Scanning Mirror of SIL has optimized the wide-angle and long focal-length light path, it is widely applied in wide scan range situation. The absorbability of Zinc Selenide to the infrared wavelengths is low, and can flitter visible light; it is the top choice of beam expander lens.
 
Beam Expander
Part Number
Material
magnification
Dia(mm)
Length(mm)
Input CA(mm)
Output CA(mm)
connect
EX-2X-10.6
ZnSe
2
22
35
15
17
M22*0.75
EX-2.5-10.6
ZnSe
2.5
37
60
13.5
30
M22*0.75
EX-3X-10.6
ZnSe
3
22
62
10
15
M22*0.75
EX-4X-10.6
ZnSe
4
27
70
10
20
M22*0.75
EX-5X-10.6
ZnSe
5
30
72
10
23
M22*0.75
EX-6X-10.6
ZnSe
6
36
75
10
30
M22*0.75
EX-8X-10.6
ZnSe
8
36
73
10
30
M22*0.75
 
special size
EX-0.5X-10.6
ZnSe
0.5
25
36.35
10.8
10.8
M22*0.75
EX-0.5X-10.6
ZnSe
1.2
25
30.69
13.1
13.1
M22*0.75
EX-0.5X-10.6
ZnSe
3.5
40
53.26
13.6
33
M22*0.75
 

 
Beam Combiner
Beam Combiner
 
Beam combiner combines the outputs of multiple laser sources (often in the form of laser arrays) to obtain a single output beam. The use of a scalable beam-combiner leads to a power-scalable laser source, even if the single lasers are not scalable.
 
PART NUMBER
PART NUMBER DIAMETER THICKNESS MATERIAL coating
mm
inch
mm
inch
W-10.6-25.4-3
25.4
1.000 
3
0.118 
Znse
side 1:AR@10.6um,side 2:HR@500-700nm
W-10.6-30-3
30
1.181 
3
0.118 
Znse
side 1:AR@10.6um,side 2:HR@500-700nm
W-10.6-38.1-4
38.1
1.500 
4
0.157 
Znse
side 1:AR@10.6um,side 2:HR@500-700nm
W-10.6-38.1-5
38.1
1.500 
5
0.197 
Znse
side 1:AR@10.6um,side 2:HR@500-700nm
W-10.6-50.8-4
50.8
2.000 
4
0.157 
Znse
side 1:AR@10.6um,side 2:HR@500-700nm
W-10.6-63.5-5
63.5
2.500 
5
0.197 
Znse
side 1:AR@10.6um,side 2:HR@500-700nm
W-10.6-75-9
75
2.953 
9
0.354 
Znse
side 1:AR@10.6um,side 2:HR@500-700nm
W-10.6-25.4-3
25.4
1.000 
3
0.118 
Znse
side 1:AR@10.6um,side 2:HR@650nm
W-10.6-30-3
30
1.181 
3
0.118 
Znse
side 1:AR@10.6um,side 2:HR@650nm
W-10.6-38.1-4
38.1
1.500 
4
0.157 
Znse
side 1:AR@10.6um,side 2:HR@650nm
W-10.6-38.1-5
38.1
1.500 
5
0.197 
Znse
side 1:AR@10.6um,side 2:HR@650nm
W-10.6-50.8-4
50.8
2.000 
4
0.157 
Znse
side 1:AR@10.6um,side 2:HR@650nm
W-10.6-63.5-5
63.5
2.500 
5
0.197 
Znse
side 1:AR@10.6um,side 2:HR@650nm
W-10.6-75-9
75
2.953 
9
0.354 
Znse
side 1:AR@10.6um,side 2:HR@650nm
 

 
Beam Splitter
Beam Splitter
 
Beam Splitters can make part of the light through the lens. and reflects the remaining light. The main application is bisected laser light to the ratio of 50 : 50 Common Beam Splitters is used to separate or merge the laser beam. The polarized beam splitters are used to split or merge the two orthogonal polarization States of the laser beam. The beam splitter performance major determinant of its coating properties.
 

 
Rear Mirror & Output Couple
Rear Mirror & Output Couple
 
Rear mirror and output couple is the most important elements of laser tube. The combination use of these two makes the laser beam available, the material of RM is silicon and OC is Znse
 
Output Couple
No. Diameter Thickness transmission% material
mm inch mm inch
OC--20 20 20 0.7874 3 0.118 20 ZnSe(USA)
OC--20 25 20 0.7874 3 0.118 25 ZnSe(USA)
OC--20 30 20 0.7874 3 0.118 30 ZnSe(USA)
OC--20 35 20 0.7874 3 0.118 35 ZnSe(USA)
OC--25 20 25 0.98425 3 0.118 20 ZnSe(USA)
OC--25 25 25 0.98425 3 0.118 25 ZnSe(USA)
OC--25 30 25 0.98425 3 0.118 30 ZnSe(USA)
OC--25 35 25 0.98425 3 0.118 35 ZnSe(USA)
OC--30 20 30 1.1811 3 0.118 20 ZnSe(USA)
OC--30 25 30 1.1811 3 0.118 25 ZnSe(USA)
OC--30 30 30 1.1811 3 0.118 30 ZnSe(USA)
OC--30 35 30 1.1811 3 0.118 35 ZnSe(USA)
 
Rear Mirror
No.
Diameter
Thickness
Radius(meter)
material
mm
inch
mm
inch
RM-20 3
RM-20 4
RM-20 5
20
0.79
3
0.12
3
4
5
silicon
RM-25 3
RM-25 4
RM-25 5
25
0.98
3
0.12
3
4
5
silicon
RM-30 3
RM-30 4
RM-30 5
30
1.18
3
0.12
3
4
5
silicon
 

 
High Power
 
High power co2 laser assembly

Wholesale imported USA focus lens, Phase Retarder, Phase Shifter, nozzles, for Amada, Bystronic, Cincinnati, Mazak, Mitsubishi, Trumpf, etc. The following is a simply list.
 
FL-D1.5-F5-T0.3 Foc Lens ZnSe 1.5"* 5.0"efl *0.300"th
FL-D1.5-F7.5-T0.3 Foc Lens ZnSe 1.5"* 7.5"efl *0.30"th
FL-D1.5-F5-T0.31 Foc Lens ZnSe 1.5"* 5.0"efl *0.310"th
FL-D1.5-F7.5-T0.31 Foc Lens ZnSe 1.5"* 7.5"efl *0.31"th
FL-D2.0-F5-T0.12 Foc Lens ZnSe 2.0"od 5.0"efl 0.120"et
FL-D2.0-F5-T0.31 Foc Lens ZnSe 2.0"od 5.0"efl 0.310"et
FL-D2.0-F7.5-T0.38 Foc Lens ZnSe 2.0"od 7.5"efl 0.380"et
FL-D2.0-F5-T0.38 Foc Lens ZnSe 2.0"od 5.0"efl 0.380"et
ZPR-Si-D3T-0.25 Zero Phase Reflector,silicon,size3.00"od*0.25"thick
PRR-Si-D3T-0.25 Phase Retardation Reflector,silicon,size3.00"od*0.25"thick
ZPR-Si-D3T-0.375 Zero Phase Reflector,silicon,size3.00"od*0.375"thick
PRR-Si-D3T-0.375 Phase Retardation Reflector,silicon,size3.00"od*0.375"thick
RM-Cu-D70-T25 Water cold Cu Reflector Mirror size70mm,od*25mmthick
PRR-Cu- D70-T25 Phase Retardation Reflector Water cold Cu size70mm,od*25mmthick

 
Infrared Processing
 
Infrared Lens
Infrared Lens
 
Material: Zinc Selenide,Ge
Design Wavelength: 10.6μm
Focal Length Tolerance: ±1%
Diameter Tolerance: +0.0/-0.1mm
Thickness Tolerance: ±0.2mm
Surface Accuracy: λ/2@632.8nm
Surface Quality: 20-10
Centration: <3'
Clear Aperture: >90%
Bevelling: <0.2×45°
Coating: AR@10.6um,BR AR@8-14um
 

 
Prisms & Rhombs
Prisms & Rhombs
 
Material: Zinc selenide
Dimension Tolerance: Tolerance:±0.1mm
Angular Tolerance: ±3’
Surface Accuracy: λ/10@632.8nm
Surface Quality: 20-10
Clear Aperture: >90%
Beveling: <0.2×45°
Coating: Custom Design
 

 
Windows
Windows
 
Material: Zinc Selenide
Diameter Tolerance: +0.0/-0.1mm
Thickness Tolerance: ±0.1mm
Surface Accuracy: λ/4@632.8nm
Surface Quality: 20-10
Parallelism: <1'
Clear Aperture: >90%
Bevelling: <0.2×45°
Coating: Custom Design

 
YAG Laser Assembly
 
YAG Lens
YAG Lens
 
YAG laser has been widely used in material processing, such as cutting, drilling, welding, etc, which not only improves the quality of the work pieces, but also the work efficiency. With Nd: YAG crystal’s excellent thermal performance, the laser’s reliability, efficiency, and power has been enhanced a lot. So it is widely used in laser rangefinder, laser radar, laser industrial processing, laser medical fields, etc. Besides that, it also provides a quick and precious method for scientific research.
 
F-Theta scan lens λ=355nm
Part No. Focal length (mm) F Working distance (mm) S Scan field [mm²] Angle of of incidence θmax Diameter of incident light Ø [mm] Diameter of Gaussian dispersion flare [µm] Best position m1/m2 [mm] Screwed joint
SL-30-63-355 63 59 30x30 ±18º 6 10 10/10 M39x1
SL-110-160-355 160 174 110x110 ±28º 7 15 16/16 M85x1
 
F-Theta scan lens λ=532nm
Part No. Focal length (mm) F Working distance (mm) S Scan field [mm²] Angle of of incidence θmax Diameter of incident light Ø [mm] Diameter of Gaussian dispersion flare [µm] Best position m1/m2 [mm] Screwed joint
SL-70-100-532 100 111 70x70 ±28º 12 10 16/16 M85x1
SL-110-160-532 160 180 110x110 ±28º 12 16 16/16 M85x1
 
F-Theta scan lens λ=1064nm
Part No. Focal length (mm) F Working distance (mm) S Scan field [mm²] Angle of of incidence θmax Diameter of incident light Ø [mm] Diameter of Gaussian dispersion flare [µm] Best position m1/m2 [mm] Screwed joint
SL-40-63-1064-12 63 59 40x40 ±25º 12 10 16/16 M85x1
SL-70-100-1064-12 100 111 70x70 ±28º 12 16 16/16 M85x1
SL-110-160-1064-12 160 176 110x110 ±28º 12 26 16/16 M85x1
SL-150-210-1064-12 210 230 150X150 ±28º 12 34 16/16 M85x1
SL-175-254-1064-12 254 280 175x175 ±28º 16 31 16/16 M85x1
SL-200-290-1064-12 290 300 200x200 ±28º 16 34 16/16 M85x1
SL-220-330-1064-12 330 346 220x220 ±28º 16 40 16/16 M85x1
 
F-Theta scan lens λ=1064nm
Part No. Focal length (mm) F Working distance (mm) S Scan field [mm²] Angle of of incidence θmax Diameter of incident light Ø [mm] Diameter of Gaussian dispersion flare [µm] Best position m1/m2 [mm] Screwed joint
SL-110-163-1064-20 163 185 110X110 ±28º 20 17 18/24 M85x1
SL-145-210-1064-20 210 232 145x145 ±28º 20 24 18/24 M85x1
SL-175-254-1064-20 254 257 175x175 ±28º 20 31 18/24 M85x1
SL-300-420-1064-20 420 456  300x300 ±28º 20 55 18/24 M85x1
SL-400-650-1064-20 650 697 400x400 ±28º 20 85 18/24 M85x1
 

 
 
YAG beam expander
YAG beam expander
 
YAG Beam Expander=532nm
Part Number Material
magnification
Dia(mm)
Length(mm)
InputCA(mm)
OutputCA(mm)
Screwed  joint
EX-2X-532 Glass
2
22
51
10
14
M22x0.75
EX-2.5X-532 Glass
2.5
22
51
10
14
M22x0.75
EX-3X-532 Glass
3
25
68
10
18
M22x0.75
EX-4X-532 Glass
4
31
75
10
24
M22x0.75
EX-5X-532 Glass
5
33
73
10
26
M22x0.75
EX-6X-532 Glass
6
38
75
10
28
M22x0.75
EX-8X-532 Glass
8
45
77
10
29
M22x0.75
 
YAG Beam Expanderλ=1064nm
Part Number Material
magnification
Dia(mm)
Length(mm)
InputCA(mm)
OutputCA(mm)
Screwed  joint
EX-2X-1064 Glass
2
22
51
10
14
M22x0.75
EX-2.5X-1064 Glass
2.5
22
51
10
14
M22x0.75
EX-3X-1064 Glass
3
25
68
10
18
M22x0.75
EX-4X-1064 Glass
4
31
75
10
24
M22x0.75
EX-5X-1064 Glass
5
33
73
10
26
M22x0.75
EX-6X-1064 Glass
6
38
75
10
28
M22x0.75
EX-8X-1064 Glass
8
45
77
10
29
M22x0.75
 
YAG Beam Expanderλ=532nm
Part Number Material magnification Dia(mm) Length(mm) InputCA(mm) OutputCA(mm) Screwed  joint
EX-10X-532 Quartz 10 14 51 10 18 M22x0.75
EX-15X-532 Quartz 15 14 51 10 18 M22x0.75
EX-20X-532 Quartz 20 14 68 10 20 M22x0.75
 

 
YAG: Total reflective mirror
YAG: Total reflective mirror
 
YAG marking machine component
Part number name Spec.
RM-D20-T5 Total reflection mirror ¢20X5
PM-D20-Tr15 Partial reflection mirror ¢20X5  T=15﹪
PM-D20-Tr20 Partial reflection mirror ¢20X5  20﹪
PM-D20-Tr12 Partial reflection mirror ¢20X5  12﹪
BM-D20-T3 Beam combiner ¢20X3 (HR@λ=632.8,AR@λ=1064)
 
YAG welding machine component
Part number Name Spec.
RM-D20-T5 Total reflection mirror ¢20X5
PM-D20-T6-Tr40 Partial reflection mirror ¢20X6  T=40﹪
45 RM-D45-T5 45°reflection mirror ¢45*5
45 RM-D45-T3 45°reflection mirror ¢45*3
PW-D40 Protective window ¢40
PW-D48 Protective window ¢48
 

 
YAG Partial reflection mirror
Partial reflection mirror
 
YAG marking machine component
Part number name Spec.
PM-D20-Tr15 Partial reflection mirror ¢20X5  T=15﹪
PM-D20-Tr20 Partial reflection mirror ¢20X5  20﹪
PM-D20-Tr12 Partial reflection mirror ¢20X5  12﹪
PM-D20-T6-Tr40 Partial reflection mirror ¢20X6  T=40﹪
 

 
YAG Rods
YAG Rods
 
In all laser equipment laser rod acts as a very important role. Whether in industrial, medical laser equipment or military laser equipment. Laser rods play a very important role.
Nd: YAG is cubic crystal, it is isotropic crystal. Nd: YAG is a four-level system, high quantum efficiency, broad stimulated emission area, so the threshold is much lower than ruby and neodymium glass. Also, because the Nd: YAG crystal has excellent thermal properties, it is ideal crystal for continuous and heavy-frequency devices. Nd: YAG crystal is able to work continuously at room temperature, the only solid working substances in low and medium-power pulse devices, the current application of Nd: YAG is much more broader than any other substances.
Nd: YAG ROD is the most mature and widely used as solid-state laser material, adopted by R&D, medical, industrial and military customers. Its main and obvious advantages are: high gain, low threshold, high efficiency, low loss at 1.064 μm, as well as high optical quality, good thermal conductivity and thermal shock characteristics, stable chemical and mechanical properties, which make Nd: YAG as the most suitable and commercial laser material for various modes of operation (CW, pulsed, Q-switched, mode locked and cavity dumped).
 
Parameter
Dopant concentration, at.% 0.5-1.2 at%
orientation: <111> ± 5° or <100> ± 5°
Flatness: < λ/10(@632.8nm)
Parallelism : ≤ 10"
Perpendicularity : ≤ 5 ′
Used for: 1064nm pulse/CW solid lasers
Optical Quality: Interference fringes ≤ 0. 25 λ /inch 
Extinction ration Ф3-Ф6.35 ≥ 28dB 
Ф7-Ф10 ≥ 25dB
Dimensional tolerances : Diameter: ±0.05mm 
Length: ±0.5mm 
Chamfer : 0.07+0.005/-0.00" at 45°
AR Coating Reflectivity : ≤ 0.2% (@1064nm)
HR-Coating Reflectivity: >99.8%@1064nm and R<5%@808nm
Parameters of lasers: Point efficiency of long pulse:3.3%(lamp pumped,20j input), slope efficiency of long pulse 4.2%
 
Dimension:
The most commonly used size of the ND: YAG laser rod diameter Is from1.5mm to 18.0mm, 0.5mm up by ladder. Length size
from 15mm, 20mm, 25mm, 30mm, 35mm, 40mm, 45mm, 50mm, 55mm, 60mm, 70mm to 200mm.
we can use diameter and length as a combination of the size.
 
Here is the most common size of Nd:yag rods:
Part number Diameter(mm) Length(mm) State of product Applied machine
Rod-D3-L50
3
50
   
Rod-D3-L60
3
60
   
Rod-D3-L110
3
110
   
Rod-D3-L120
3
120
Always have stock Laser making machine
Rod-D4-L50
4
50
   
Rod-D4-L60
4
60
   
Rod-D4-L120
4
120
Always have stock Laser making machine
Rod-D4-L130
4
130
Always have stock Laser making machine
Rod-D5-L110
5
110
   
Rod-D5-L120
5
120
Always have stock Laser making machine
Rod-D5-L140
5
140
   
Rod-D6-L110
6
110
   
Rod-D6-L150
6
150
   
Rod-D8-L147
8
147
Always have stock Laser making machine
Rod-D8-L180
8
180
   

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