مقالات و فناوری‌های نوین

  • Reducing Seconondary Noise on Nanjing Mettro, China

    ASTRACT

    Pandrol Ltd. has been supplying iitts s low stiffness VANGUARD rail fastener to metro operatorss throughout China since 2004. The Pandrol VANGUARD ssyystem uses the principle of rubber in shear to support the rrunning rail by the web and the underside of the railheadd,, which allows the fastener to develop very low vertical ssuupport stiffness. This is demonstrated by the reduction of ssecondary (or re-radiated) noise inside buildings adjacent too metro tunnels. In 2009 Nanjing Metro made a trial fittingg of Pandrol VANGUARD on Line 1. It was retrofitted in ppllace of the existing slab track fasteners thus the performa annce differences between the two could be measured in ter rmms of the insertion loss. The China Ship Scientific Researrcch Centre was commissioned by Nanjing Metro to make reellevant measurements of noise and vibration. This paper d dees scribes the results in terms of vibration measured inside thhee tunnel, the ground vi-bration above the tunnel and noisee inside a building above the trial site.

  • Quality control measurement of a MSS after 30 years of operation

    Introduction

    An investigation into the effectiveness of one of the first mass-spring systems (MSS) in Switzerland is currently ongoing. After 30 years of operation, the vibration-reducing lightweight MSS is still performing without faults, despite the elastic bearing of the slab now being partially submerged in water. Vibration engineering experts Adrian Egger and Markus Heim provide further insight.

  • THE DYNAMIC TESTING OF ELASTOMERS

    Introduction

    Elastomers are finding wider and wider applications throughout industry. For example, the

    automotive industry is continually attempting to improve fuel efficiency. The resulting reduction

    in body and engine weights put increasing pressure on suspension and sound insulation designers

    to meet the car buyers demands for improved ride quality and quiet cars. Designers are no

    longer satisfied with simple static performance data but need data that assists the design of

    complex systems involving elastomeric components.

    A difficulty often encountered lies in the communication problems between the materials

    technologist, the component designer and the test equipment manufacturer. This paper attempts

    to try to clarify some of the confusing terms in dynamic testing and point out some to the

    potential problems, which can be encountered by those unfamiliar with dynamic testing.