Вставки CBN для твердого точения

Главная / Вставки из КНБ / CBN Inserts for Hard Turning
Hard Turning with PCBN

CBN Inserts for Hard Turning Hardened Steel

Select CBN and PCBN inserts for hardened steel, bearing steel, case-hardened parts, continuous finishing and interrupted hard turning. Match the grade, insert geometry, edge preparation and cutting condition to the required tool life and surface finish.

Закаленная сталь Bearing Steel Case-Hardened Parts Finish Hard Turning
CBN inserts for hard turning hardened steel
PCBN insert selection for hard turning Choose the grade and geometry according to hardness, continuity of cut, finish requirement and current failure mode.
Workpiece Materials

Hard Turning Applications by Steel Type

The material condition, hardened layer and interruption level influence grade and geometry selection.

PCBN inserts for bearing steel hard turning
Bearing Steel

Hardened Bearing Components

Finish races, shafts and hardened functional surfaces with stable geometry and wear-focused grades.

PCBN inserts for case hardened steel turning
Case-Hardened Steel

Case-Hardened Parts

Match the cutting edge to the hardened case, component geometry and possible transitions into softer core material.

PCBN inserts for hardened tool steel
Инструментальная сталь

Hardened Tool and Die Steel

Use application-matched PCBN grades for stable finishing or interrupted surfaces in hardened tool steels.

PCBN inserts for through hardened steel turning
Through-Hardened Steel

Through-Hardened Components

Review hardness, stock allowance, setup rigidity and continuity of cut before selecting the grade and insert body.

Cutting Continuity

Choose CBN Inserts by Hard-Turning Condition

As interruption increases, selection moves from wear-focused grades toward tougher grades and more stable edge conditions.

Continuous Hard Turning

Prioritize wear resistance, dimensional consistency and surface finish in stable cuts.

Light-Interrupted Hard Turning

Balance abrasion resistance and toughness for small holes, shallow keyways or periodic interruption.

Moderate / Heavy Interruption

Use tougher grade direction, stable insert geometry and appropriate edge preparation where impact dominates.

PCBN Grade Direction

PCBN Grades for Hard Turning

Use the grade table as a starting point, then confirm availability for the selected insert code and structure.

Класс CBN Content Best-Fit Condition Hard-Turning Direction
OBN45 Approx. 45% Непрерывный или с умеренными перерывами Finish hard turning, high speed and fine surface finish
OBC50 Approx. 50% Непрерывный — с небольшими перерывами General hard machining and cold-work tool steel
O2C50 Approx. 50% Непрерывный — с небольшими перерывами Higher-speed hard machining with abrasion resistance
OBX60 / OBX65 Прибл. 65% Moderate to heavy interruption Hardened steel requiring greater toughness
OBW85 Approx. 85% Heavy interruption and abrasive conditions Use where chip resistance and toughness become more important

Confirm the final commercial naming of OBX60/OBX65 before publishing.

Рекомендуемые начальные данные

CBN Cutting Parameters for Hardened Steel

Use these values as starting ranges. Final speed, feed and depth of cut must be adjusted to the selected PCBN grade, insert geometry, hardness, interruption level and machine rigidity.

Работа Cutting Condition Скорость резания Vc Глубина среза ап Feed f
Turning / Roughing Continuous cutting 80–160 m/min 1.0–2.5 mm 0.1–0.5 mm/rev
Turning / Roughing Interrupted cutting 80–125 m/min 1.0–2.5 mm 0.1–0.5 mm/rev
Финальная обработка Continuous cutting 125–210 м/мин 0,1–0,5 мм 0,05–0,2 мм/об.
Финальная обработка Interrupted cutting 100–150 м/мин 0,1–0,5 мм 0,05–0,2 мм/об.
High-Alloyed Steel Roughing General turning 60–110 m/min 0.5–2.0 mm 0.15–0.3 mm/rev
High-Alloyed Steel Finishing Final turning 80–150 m/min 0,1–0,5 мм 0,05–0,2 мм/об.

Start from the lower half of the range for a new setup, unstable clamping or interrupted surfaces. Increase one parameter at a time after confirming edge condition and surface finish.

Hard turning insert geometry and nose radius guide
Use a final diagram showing stable turning shapes, profiling shapes and representative nose radii.
Вставить геометрию

Choose the Insert Shape for the Hard-Turning Cut

Geometry selection depends on component access, insert strength, holder style and required profile.

Geometry Direction Representative Families Типичное использование
Stable general turningCNGA, SNGA, WNGAExternal diameters, facing and stable hard finishing
Profiling and shoulder accessDNGA, VNGAContours, tapers and restricted approach
Multi-corner turningTNGA, WNGAGeneral turning where usable corner count is important
Lower-force / internal turningCCGW, DCGW, TCGW, VCGWBoring, profiling and lighter cutting-force requirements
Устранение неисправностей

Common Hard-Turning Tool-Life Problems

Review the failure mode before changing grade, geometry or cutting data.

W

Быстрый износ боковых поверхностей

Review cutting speed, stock consistency, grade wear resistance and edge engagement.

C

Сколы по краям

Check interruption level, setup rigidity, edge preparation and grade toughness.

F

Плохая обработка поверхности

Review nose radius, feed, vibration, workpiece support and accumulated edge wear.

V

Dimensional Variation

Check machine stability, thermal effects, insert seating and progressive wear.

Nose Radius and Feed

How Nose Radius and Feed Affect Hard-Turning Finish

The theoretical surface profile is influenced by feed per revolution and cutting-edge radius. Actual finish can still be limited by vibration, clamping, tool wear and workpiece instability.

Rt = f² / (8 × r)

The formula estimates theoretical surface roughness from feed and nose radius.

Rt — theoretical surface roughness
f — feed per revolution, mm/rev
r — cutting-edge radius, mm
Target Ra Rt r = 0.2 r = 0.4 r = 0.8 r = 1.2 r = 1.6
0.81.80.050.070.100.120.14
1.64.00.080.110.150.190.23
3.210.00.120.170.240.290.36
6.316.00.160.220.300.370.45

Table values are feed f in mm/rev. The theoretical calculation does not include unstable machining conditions, insufficient machine or workpiece rigidity, incorrect clamping, tool wear or variable depth of cut.

Application Review

Information Needed for a Hard-Turning Recommendation

Accurate selection requires the actual workpiece condition and current process result, not only the insert code.

Material and HardnessSteel grade, hardness range, hardened case and stock condition
Cutting ContinuityContinuous, light-interrupted or heavy-interrupted surface
Insert and HolderFull insert code, holder code, orientation and overhang
Cutting DataSpeed, feed, depth of cut and dry/wet condition
Current Tool LifeParts per edge, minutes in cut or measured wear limit
Target ResultSurface finish, tolerance, cycle time and expected quantity
Hard Turning FAQ

CBN Inserts for Hard Turning: Common Questions

Why are CBN inserts used for hard turning?

CBN and PCBN inserts combine high hot hardness and wear resistance, making them suitable for turning hardened steels and selected abrasive materials where carbide may wear too quickly.

Which PCBN grade is suitable for continuous hard turning?

Wear-focused lower-CBN grades are commonly selected for stable finishing. The final grade depends on hardness, speed, stock consistency, required finish and insert-code availability.

Which grade should I use for interrupted hard turning?

As interruption increases, a tougher grade and more stable geometry are generally required. Edge preparation, setup rigidity and actual impact level also affect the choice.

Can CBN inserts turn case-hardened steel?

Yes, provided the hardened layer, hardness range, stock allowance and transition into softer material are considered when selecting the grade and cutting edge.

Which insert shape is best for hard turning?

C, S and W shapes offer stable cutting bodies, while D and V shapes improve profile access. The best shape depends on holder style, component geometry and interruption level.

How do I improve surface finish in hard turning?

Review nose radius, feed, machine rigidity, insert seating, edge wear and component support. A grade change alone may not solve vibration or geometry-related finish problems.

What information is needed for a hard-turning quotation?

Provide the insert code, material, hardness, cutting condition, current cutting data, tool life, surface-finish target and required quantity.

Запросить рекомендацию

Send Your Hard-Turning Application

Share the material, hardness, insert code and current process. Our team will review the PCBN grade, geometry and quotation.

  • Материал и твердость заготовки
  • Continuous or interrupted cutting condition
  • Insert and holder code
  • Cutting speed, feed and depth of cut
  • Current tool life and failure mode
  • Required quantity and target result

Get a Hard-Turning Grade Recommendation

Прокрутить к верху

Поднимите свои продажи уже сегодня

Вам нужен настоящий ветеран индустрии инструментов с ЧПУ. Позвольте инструментам ONMY помочь вам стать №1 в этой области.