www.ultrangroup.com

Non-Contact Ultrasound

PLASTICS, RUBBER AND FOAM ANALYSIS

Application Note AN-305-2

SecondWave™ M510 Ultrasonic Analysis System

Non-Contact Ultrasound: Plastics and Rubber

Application Note AN-305-2

2

3100 Research Drive, State College, PA 16801 USA

Ph: +1.814.861.2001 Fax: +1.814.861.2045

www.ultrangroup.com

SecondWave™ M510 shown with single and multi-channel transducers on different materials

Introduction

Contact or water immersion ultrasound does provide

significant information about materials quality and

properties. But, it cannot be applied to the early stages

of materials formation - when they are tacky or fragile.

It is also not reliable for materials that are porous, liquid

sensitive, or when any type of contact with a material is

cumbersome. Non-Contact Ultrasound (NCU) is the

most desirable choice for such applications.

Ultran has been working to facilitate NCU since 1978. In

1997, Ultran created internationally patented

piezoelectric transducers characterized by phenomenal

efficiency in air and other gases with frequencies from

50 kHz to 5.0 MHz. Complementing the NCU

transducers are Ultran’s equally novel ultrasonic imaging

systems and analyses software. The SecondWave™

M510 is a focused non-contact ultrasonic analysis

system that is customer-friendly and understands the

significance of materials testing and analysis, including

the speeds required to accomplish a task.

The M510 supports through transmission, same-side

and pulse-echo techniques. M510 single and multi-

channel systems have been fully configured and

installed for on-line (production line) and off-line

(benchtop) QC analysis of plastics and rubber from

uncured to cured stages and finished products.

M510 Capabilities

Inhomogeneous mixing of elastomers and additives

High resolution defect detection in tires, plastic, foams,

and composites

Applicable to very thick and attenuative materials

Density/porosity, and mechanical properties

SecondWave™ M510 Components

NCU Transducers

Ultran’s transducers boast the highest efficiency devices

among non-contact transducers – approaching those of

conventional contact transducers. Frequency Range: 50

kHz - 5.0 MHz. Active dimensions: 1.0 mm - 500mm.

with planar, point, parabolic, and compound beam

geometry. Robust lightweight construction.

Scanning: Vertical or horizontal acoustic bench, single or

multi-transducer multi-axis scanning frames.

System Instrumentation

4U industrial grade unit incorporating Intel Core2 Quad

processors, 2 GB RAM, RAID5 Serial ATA hard drives and

redundant power supplies. Integrated are:

Pulser: PCI-based 375V RF toneburst pulser with 50 kHz

to 5 MHz range, adjustable bursts, voltage and PRF.

Receiver: Internal 1-8 channel low-noise amplifier with

80 dB gain and 10 MHz bandwidth, multi-value low and

high pass filters.

DAQ: 14 bit Analog to Digital Converter with 50 MHz

sample rate and on-board 256 MB storage. Multi-axis

encoder inputs for motion synchronized acquisition.

Software

SecondWave™ Studio: Windows XP-based A-Scan and

C-Scan software with user-friendly GUI. Displays rolling

single and multi-channel C-Scans. Capture and storage

of full-wave data for scans. Project Manager with

multiple access levels. SQL Database integration.

SecondWave™ Research Studio: C-Scan and A-Scan

post-processing software. Generates cross-sectional

material profiles. Parametric correlation to determine

material density, porosity and fiber orientation. Image

processing functions to find and highlight defects.

Non-Contact Ultrasound: Plastics and Rubber

Application Note AN-305-2

3

3100 Research Drive, State College, PA 16801 USA

Ph: +1.814.861.2001 Fax: +1.814.861.2045

www.ultrangroup.com

Non-contact ultrasound techniques

Direct transmission

Same side transmitter-receiver – pitch-catch

T R

Longitudinal/Shear

Waves

Surface WavesAIR

Single transducer – pulse-echo

AIR

Quantitative detectability example

Defect, crack, delamination detection

Velocity, time-of-flight, thickness measurements

Oblique incidence & refraction for shear wave and

anisotropy measurements

Defect, delamination,

corrosion detection

Location of discontinuities

Surface profiling

Surface acoustic analysis

Reflectance measurements

Depth measurement

Object identification

Air + Test

Material

Transmission

Surface

Reflections

Thickness

Reflections

Detection of side drilled holes (varying

from 0.5 to 6.3 mm) in 10 mm PMMA

with direct NCU transmission – 1.0 MHz

Ultrasonic reflection image

AIR

T

R

AIR

Non-Contact Ultrasound: Plastics and Rubber

Application Note AN-305-2

4

3100 Research Drive, State College, PA 16801 USA

Ph: +1.814.861.2001 Fax: +1.814.861.2045

www.ultrangroup.com

Observations and case studies by direct transmission and same side NCU imaging All images are raw, without special or post-signal processing, and in most cases no signal averaging was used

Plastic sheets and tiles – overt defect detection and texture evaluation – figures 1 and 4

Fig. 1. 1.5 mm side drilled

hole in 10 mm polystyrene.

1.0 MHz

Fig. 2. 1.5 mm plastic grain

filled polyester.

500 kHz

Fig. 3. Fiber orientation in

SMC panel.

500 kHz.

Fig. 4. Anisotropic behavior

in SMC panels.

500 kHz.

Non-Contact Ultrasound: Plastics and Rubber

Application Note AN-305-2

5

3100 Research Drive, State College, PA 16801 USA

Ph: +1.814.861.2001 Fax: +1.814.861.2045

www.ultrangroup.com

Rubber and tire – Heterogeneous mixing, hardness, defects, etc. – figures 5 to 9

Fig. 5. 10 mm poorly mixed

rubber.

500 kHz.

Fig. 6. 7 mm silica filled

rubber with subtle

variations.

1.0 MHz.

Fig. 7. 1 mm rubber varying

in hardness – left 10D, right

20 D.

1.0 MHz

Fig. 8. Steel belted tire

section.

Top: 1.0 MHz

Middle: 500 kHz

Fig. 9. Tire section

without re-enforcement.

1.0 MHz

Non-Contact Ultrasound: Plastics and Rubber

Application Note AN-305-2

6

3100 Research Drive, State College, PA 16801 USA

Ph: +1.814.861.2001 Fax: +1.814.861.2045

www.ultrangroup.com

Polymer foams – texture and defects – figures 10 to 14.

Fig. 10. 80 mm

polyurethane foam with

porosity/density variations.

140 kHz

Fig. 11. 150 mm

polyurethane foam with

gross defects

140 kHz

Fig. 13. High resolution

imaging of 19 mm

polystyrene foam varying

in density.

200 kHz

Fig. 12. High resolution

imaging of 100 mm

polyurethane foam

varying in density, also

with internal defects.

200 kHz

Fig. 14. Surface texture of a fine celled foam. 3.0 MHz

Non-Contact Ultrasound: Plastics and Rubber

Application Note AN-305-2

7

3100 Research Drive, State College, PA 16801 USA

Ph: +1.814.861.2001 Fax: +1.814.861.2045

www.ultrangroup.com

Thin Polystyrene Foams (Fig 15) – Defect Detection and Texture Analysis

Multi-layer rocket motor insulation (Fig 16)

Non-Contact Ultrasound: Plastics and Rubber

Application Note AN-305-2

8

3100 Research Drive, State College, PA 16801 USA

Ph: +1.814.861.2001 Fax: +1.814.861.2045

www.ultrangroup.com

Conclusions

Ultran’s SecondWave™ M510 ultrasonic imaging and

analysis system is characterized by a wide range of

frequencies from 50 kHz to 5.0 MHz. This makes it

possible to apply non-contact ultrasound (NCU)

plastics and rubber products all the way from early

stages of their formation to finished products. The

M510 is a powerful tool for materials process analysis

and QC, directly saving you cost, energy, and

materials, besides assuring the quality and reliability

of your materials.

What Ultran provides

We supply complete NCU systems suitable for

customers’ needs. These include specifically

designed transducer libraries so that our customers

can start characterizing all their materials from Day 1.

Ultran also supplies custom NCU systems geared for

production (online) configured to customers’

applications and environment of testing.

Under agreements, Ultran will transfer science and

technology - targeted to customer needs. We offer

hands-on training to all our customers.

We maintain a fully-stocked ultrasound materials

analytical laboratory and we are fully equipped to

provide feasibility, in-depth analysis, and R&D for our

customers.

Sales representatives

HEAD OFFICE

The Ultran Group

3100 Research Drive

State College, PA 16801 USA

Tel: +1.814.466.6200

Fax: +1.814.466.6847

Email: info@ultrangroup.com

ITALY

Pierluigi Carni

Via B. Angelico, 1

24047 Treviglio – BG, Italy

Tel: +39 340 9125410

Email: plcarni@atenatec.it

UK

Sonatest NDTS

Jenny Hough

Units 1-3 Prospect House, Colliery Close,

Ireland Business Park,

Staveley, Chesterfield, S41 8NG, UK

Tel: +44 (0) 1246 474269

Fax: +44 (0) 1246 474089

Email: jenny.hough@sonatest.com

JAPAN

Ken Automation

Tatsuya Yaoita

Hiranuma 1-11-12

Yokohama KMH Bldg., Nishi-Ku

Yokohama - 220-0023

Tel: +81.45.290.0432

Fax: +81.45.321.6590

Email: yaoita@kenautomation.com

CHINA

Matrix U/E Technologies Inc.

Jiang Yunxi

Chaoyang District, Beijing Wangjing Litse emerging

industries in Park District No. 106 Building 402B

Tel:+86-10-64391208-819

Mobile: 0086-13910978697

E-Mail: jiangyunxi@matrixndt.com

INDIA

Simon Amallraja

President - SMD

PET Aviation Systems P Ltd.

Mobile: +91 98663-43309, +91 98480-43309

Tel: +91-40-2370-2840, Fax: +91-40-2370-2837

Email: amallraja@petaviation.com

Tel: +91.(022) 2497.5580