R&D

HOME :: R&D :: Quality Test

Quality Test


Performance Test
Each blower core unit is tested in our advanced test-rigs in compliance with standard for performance test. The design, production and service of turbo machinery are certified every year according to ISO 9001 and ISO 14001. The procedures of performance test are conducted at regular intervals according to ASME, ISO and API international standards

During the Test, each blower is operated at maximum design load for 3–10 operating hours, depending on the operating point. The test procedures have been developed during decades of testing thousands of turbo blowers and must fulfill the following purposes.

• Provide data over the entire specified operational range for the quality approval.
• Provide data for the automated power saving program with variable element technology.
• Provide specific and statistical data as feedback for the compressor design program.
• Provide to the customer documentation of the performance data and the performance range in the form of a graphic presentation

The test will be conducted by an experienced engineer in cooperation with the test-bed foreman according to international standards. The complete test procedure is witnessed either by the customer itself or a third party, i.e. an inspector from an independent and neutral inspection company

Compliant with ISO 5389:2005, PTC 10-1997
Overspeed Spin Test

The Objectives of
Overspeed Spin Test

1. Overspeed Spin Test
The rotating parts which are rotating at very high speed, such as impeller, turbine wheel, fan, etc., may burst suddenly due to material imperfection and high stress level from centrifugal loading even within the designed life span. Overspeed Spin Test is a very effective quality assurance method to verify the mechanical integrity of a rotating component. As the final inspection step, the test can detect not only potentially dangerous micro defects in material but also improper application of materials, omission of heat treatment process and local weakness of metal structure. Overspeed Spin Test is essential for those products which require high quality levels in safety. Structural integrity of Neuros’ impeller is verified by a Spin Test at a rotational speed of 120%.

2. Low Cycle Fatigue(LCF) Test
This test is required to control and guarantee the life span of rotating components which undergo cyclic loading. In this test, the cyclic operating condition is simulated by the spin tester.

3. Burst Testbr
In this test, the rotating speed is increased until the rotating part bursts in order to check the actual burst point and safety factor. Usually, this test is conducted in the research & development stage, and is essential for the products of which burst may bring a serious loss of properties and/or may cause severe harm to people.

4. Strength Improvement
Before final machining, rotate the part at very high speed so that the stress level in the rotating part – usually rotor bore – reaches yielding regime. This process improves the strength of the component.

Test Capability

Test Capability

Rotor Diameter
• Max. 500mm
Rotor Length
• 515mm (including mandrel)
Rotor Weight
• 50kg (including mandrel)
Test Speed
a) Max. 125,000 rpm up to 50kg(including mandrel)
b) Max. 200,000 rpm up to 10kg(including mandrel)


Vibration Test

Modal Test

• Natural frequencies and mode shape
• Sensors : accelerometers, laser and stroboscope

Fatigue Test

• High cycle fatigue test (HCF) of structure
• Examples : Endurance limit of blade and vane
Vibration fatigue test

Vibration analysis


Vibration Environment
Test

• Simulation for actual dynamic environment such as vibration and shock
• Components for vehicle, train, airplane and ship
Vibration test

Exciter Type

Model 5500LS(TIRA)
Type Electromagnetic
Nominal Force 4000 / 4000 / 8000 N(Sine / Random / Shock)
Frequency Range 2~3,000 Hz
Amplitude(p-p) 50.8 mm
Max. Velocity 1.7 / 1.7 / 2.0 m/s (Sine / Random / Shock)
Max. Acceleration 54 g
Max. Test Load 100 kg
Suspension Stiff. 50 N/mm


Balancing

The Necessity
of Balancing Test

Generally, the geometric center doesn’t coincide with the center of mass in real cases in rotating parts due to machining tolerance and material nonuniformity even though they are made precisely as much as possible. Therefore, it is very natural that a newly manufactured rotor has a certain level of unbalance force, which is a common source of vibration in rotating machinery and its intensity is proportional to the square of rotational speed. However, the unbalanc force must be controlled under the predetermined level by balancing, otherwise it can deteriorate the dynamic stability of rotor-bearing system, reduce the life of bearing supports and generate abnormal sound and vibration. Balancing is a correction process of the discrepancy between geometric center and center of mass in rotors.
Difference between geometric center and mass center(dot) Vibration by disproportion of mass

Equipment

Soft Bearing Type

• Model : BT 25/50 BENCH BALANCER
• Manufacturer : HEINS BALANCING

SYSTEMS, INC(USA)
• Purchased in 2003
• Weight of rotor
- Small range : 14g ~ 9kg
- Middle range: 224g ~ 27kg
• Max. length of rotor: 813mm
• Max. diameter of rotor : 610mm
• Balancing Precision: Grade 0.4 (ISO 1940)

HARD BEARING TYPE

• Model : H100BT
• Manufacturer – Koeng., Co. Ltd
• Purchased in 2008
• Weight of rotor : 0.5g ~ 150kg
• Max. distance between supporting point : 1,300mm
• Min. distance between supporting point : 10mm
• Max. diameter of rotor : 735mm
• Balancing Precision : 0.2g.mm (ISO 2953)
• Rotor Rotation : 200 ~ 5,000 RPM

Balancing Condition

• Compliant with ISO 1940/1


Neuros Co., Ltd. 274, Techno 2-ro, Yuseong-gu, Daejeon 305-510, Korea
http://www.neuros.com Tel : 042-865-7300 / Fax : 042-865-7320 / Email : neuros@neuros.co.kr
COPYRIGHT © Neuros CO., LTD. ALL RIGHTS RESERVED