fujiseiko thailand logo

DrillMeister / AddMeisterDrill

High productive head-changeable drill

Stable performance, long tool life, and significant cost-savings
are possible thanks to the elimination of tool reconditioning and reduced inventory

01 - DrillMeister​

DrillMeister - Head-changeable drills for unparalleled tool life and machining performance

02 - AddMeisterDrill

AddMeisterDrill - World's smallest exchangeable drillhead series

03 - DrillMeister_Exchange​

DrillMeister_Exchange​

04 - AddMeisterDrill_Exchange​

AddMeisterDrill_Exchange​

05 - DrillMeister Introducing dedicated key​

DrillMeister Introducing dedicated key​
Applications
Drilling

Features

1. Exchangeable head drills for unparalleled tool life and machining performance

– Helical margin to prevent chip adhesion between the body and the hole during machining
– Tool body made from highest grade of steel with superior hardness for high wear resistance
– Wide variety of geometries for every drilling application
– Advanced grade options ensure stable, long tool life
– Internal coolant channels supply efficient cooling and lubrication during the drilling process

 

2. Quick and precise head changing with advanced self-clamping system

– Drilling head pocket designed to withstand high machining cutting conditions
– Allows easy and fast head indexing, minimizing machine downtime

 

3. Ensures long tool life and wear predictability

Margin of DrillMeister head

– Cutting head is always new and reliable
– Optimized coating thickness provides long tool life
– Constant coating quality provides superior tool life predictability

Tool life fluctuations of DrillMeister

Margin of solid carbide drill (after reconditioning)

– Excess coating thickness due to multiple re-coating processes
– Fragile coating layer due to excess re-coating
– Result: unpredictable tool life

Tool life fluctuations of solid carbide drills

Inserts

DMP (ø4.0 – ø25.9 mm)

  • General purpose type
  • Light cutting due to sharp cutting edge
LEARN MORE

DMC (ø4.0 – ø25.9 mm)

  • High accuracy type
  • Innovative chiseled edge for smooth drill entry. No pre-drilling needed in 12xD drilling operation
  • Double margins provides superior surface finish and hole drilling straightness
LEARN MORE

DMF (ø4.0 – ø25.9 mm)

  • Flat edge design with pilot edge performs balanced drill entry
  • Significantly reduced radial forces promise stable drilling for complex surfaces at drill entry and exit
  • Stable drilling with long overhang up to L/D = 8 without pre-hole
LEARN MORE

DMH (ø6.0 – ø25.9 mm)

  • Strong cutting edge design prevents the drill edge from fracturing during demanding processes
  • Versatile and wear-resistant AH9130 grade provides extended tool life
LEARN MORE

DMN (ø6.8 – ø19.5 mm)

  • Excellent welding resistance for non-ferrous metals
LEARN MORE

DMM (ø10 – ø19.9 mm)

  • Stainless steel & exotic materials
  • Excellent tool life and cost reduction in stainless steel and exotic materials
LEARN MORE
 
Main Grades

AH725

   

  • P15 – P30 / M15 – M30 / K25 – K30 / S15 – S25
  • Good balance between wear and chipping resistance
  • Suitable for machining steel and stainless steel under general cutting conditions
LEARN MORE

AH9130

   

  • P15 – P35 / M25 – M35 / K10 – K25 / S15 – S30
  • High wear resistance
  • Designed for drilling various materials
LEARN MORE

KS15F

  • N15
  • Uncoated cemented carbide
LEARN MORE
Drill Bodies

TID-F (1.5xD, 3xD, 5xD, 8xD)

  •  Cylindrical shank with flat cotter and flange
LEARN MORE
Drill Bodies

TID-R (3xD, 3.5xD, 5xD, 6xD, 8xD, 12xD)

  • Cylindrical shank
LEARN MORE
Drill Bodies

TID-R-E (2xD)

  •  Cylindrical shank
  • Without coolant hole. Economical type
LEARN MORE
Drill Bodies

TID-TT (3xD)

  • Exchangeable head drill with TinyMini-Turn adaptation
LEARN MORE
Drill Bodies

TIDC (3xD, 5xD)

  • Cylindrical shank with flat cotter & chamfering adapters
LEARN MORE
Drill Bodies

TID-M (2xD, 3xD)

  • Modular body with TungFlex connection
LEARN MORE
Drill Bodies

TID-S (2xD)

  • Modular body with TungMeister connection
LEARN MORE
Drill Bodies

TIDCF

  • Chamfering adapter
LEARN MORE
Drill Bodies

TID-L-A-M

  • Drill with chamfer and TungFlex connection
LEARN MORE
Example #1
Part:Cylinder block
Material:FC250 / GG25 / 250
Drill body:TID115F16-8
Head:DMC115 AH9130
Cutting conditions:Vc = 100 (m/min)
f = 0.2 (mm/rev)
Vf = 554 (mm/min)
DC = 11.5 (mm)
H = 80 (mm)
Coolant: Wet (Internal coolant)
Machine: Horizontal M/C
 
Example #2
Part:Flange part
Material:S45C / C45
Drill body:TID050R06-5
Head:DMP050 AH725
Cutting conditions:Vc = 100 (m/min)
f = 0.1 (mm/rev)
Vf = 636.9 (mm/min)
DC = 5 (mm)
H = 20 (mm)
Coolant: Wet (Internal and external coolant)
Machine: Vertical M/C
 
Example #3
Part:Out put shaft
Material:SCM415
Drill body:TID140F16-8
Head:DMC140 AH9130
Cutting conditions:Vc = 120 (m/min)
f = 0.3 (mm/rev)
Vf = 600 (mm/min)
DC = 14 (mm)
H = 80 (mm)
Coolant: Wet (Internal coolant)
Machine: Horizontal M/C

View more DrillMiester reports

 

View more AddMeisterDrill reports

ISOWorkpiece materialHardnessCutting speed
Vc (m/min)		Feed: f (mm/rev)
Tool diameter: DC (mm)
ø4 – 4.4ø4.5 – 4.9ø5 – 5.9
Low carbon steels (C < 0.3)
SS400, SM490, S25C, etc.
C15E4, E275A, E355D, etc.		– 200 HB80 – 1400.04 – 0.070.04 – 0.080.07 – 0.13
High carbon steels (C > 0.3)
S45C, S55C, etc.
C45, C55, etc.		– 300 HB70 – 1200.04 – 0.070.04 – 0.080.07 – 0.13
Low alloy steels
SCM415, etc.
18CrMo4, etc.		– 200 HB70 – 1200.04 – 0.060.05 – 0.080.07 – 0.13
Alloy steels
SCM440, SCr420, etc.
42CrMo4, 20Cr4, etc.		– 300 HB40 – 900.04 – 0.070.05 – 0.080.07 – 0.13
Stainless steels
SUS304, SUS316, etc. X5CrNi18-9,
X5CrNiMo17-12-2, etc.		– 250 HB30 – 700.04 – 0.08
Grey cast irons
FC250, etc. GG25, etc.		150 – 250 HB80 – 1800.04 – 0.080.04 – 0.080.1 – 0.15
Ductile cast irons
FCD700, etc. GGG70, etc.		150 – 250 HB80 – 1400.04 – 0.080.04 – 0.080.1 – 0.15
Aluminium alloys
ADC12, etc. AlSi11Cu3, etc.		80 – 220
Titanium alloys
Ti-6Al-4V, etc.		– 40 HRC20 – 50
Nickel-based alloys– 40 HRC20 – 50
Hardened steel– 50 HRC20 – 50
ISOWorkpiece materialHardnessCutting speed
Vc (m/min)		Feed: f (mm/rev)
Tool diameter: DC (mm)
ø6 – 7.9ø8 – 9.9ø10 – ø11.9ø12 – ø13.9ø14 – ø15.9ø16 – ø19.9ø20 – ø25.9
Low carbon steels (C < 0.3)
SS400, SM490, S25C, etc.
C15E4, E275A, E355D, etc.		– 200 HB80 – 1400.09 – 0.130.12 – 0.250.15 – 0.280.18 – 0.30.20 – 0.350.25 – 0.450.25 – 0.45
High carbon steels (C > 0.3)
S45C, S55C, etc.
C45, C55, etc.		– 300 HB70 – 1200.09 – 0.130.12 – 0.250.15 – 0.280.18 – 0.30.2 – 0.350.25 – 0.450.25 – 0.45
Low alloy steels
SCM415, etc.
18CrMo4, etc.		– 200 HB70 – 1200.08 – 0.130.11 – 0.250.14 – 0.280.16 – 0.320.18 – 0.350.23 – 0.40.25 – 0.45
Alloy steels
SCM440, SCr420, etc.
42CrMo4, 20Cr4, etc.		– 300 HB40 – 900.08 – 0.130.11 – 0.250.14 – 0.280.16 – 0.320.18 – 0.350.23 – 0.40.25 – 0.45
Stainless steels
SUS304, SUS316, etc. X5CrNi18-9,
X5CrNiMo17-12-2, etc.		– 250 HB30 – 700.08 – 0.10.1 – 0.150.12 – 0.180.14 – 0.20.16 – 0.240.16 – 0.260.18 – 0.3
Grey cast irons
FC250, etc. GG25, etc.		150 – 250 HB80 – 1800.12 – 0.180.15 – 0.30.20 – 0.350.25 – 0.40.3 – 0.450.35 – 0.550.35 – 0.6
Ductile cast irons
FCD700, etc. GGG70, etc.		150 – 250 HB80 – 1400.12 – 0.180.15 – 0.30.20 – 0.350.25 – 0.40.3 – 0.450.35 – 0.550.35 – 0.6
Aluminium alloys
ADC12, etc. AlSi11Cu3, etc.		80 – 2200.1 – 0.20.2 – 0.350.25 – 0.40.3 – 0.450.35 – 0.50.4 – 0.60.5 – 0.75
Titanium alloys
Ti-6Al-4V, etc.		– 40 HRC20 – 500.05 – 0.070.06 – 0.120.08 – 0.150.1 – 0.280.12 – 0.20.14 – 0.220.18 – 0.27
Nickel-based alloys– 40 HRC20 – 500.05 – 0.070.06 – 0.110.08 – 0.130.1 – 0.150.12 – 0.180.12 – 0.220.14 – 0.22
Hardened steel– 50 HRC20 – 500.05 – 0.070.06 – 0.120.08 – 0.150.1 – 0.180.12 – 0.20.14 – 0.220.16 – 0.25
  • Cutting conditions in the above table show standard cutting conditions
  • Cutting conditions may change due to the rigidity and power of the machine and the workpiece material
  • Machined hole diameter may change depending upon the rigidity of the machine tool or cutting conditions

For more information about this product, visit our online e-catalog or download the product report:

e-Catalog

Metric  |  Imperial

PDF