Welding Characteristics of 67 kHz Ultrasonic Plastic Welding System Using Fundamental and Higher-Resonance-Frequency Vibrations
スポンサーリンク
概要
- 論文の詳細を見る
The welding characteristics of a 67 kHz ultrasonic plastic welding system using fundamental and higher-resonance-frequency vibrations were studied and compared with those of the 27 kHz and 40 kHz systems. At high frequency, welding characteristics were improved due to the larger vibration loss of plastic materials. The 67 kHz welding tip vibrates at a maximum velocity of more than 2.3 m/s (peak-to-zero value) at a fundamental resonance frequency and there are several higher resonance frequencies up to 94 kHz whose vibration velocities are more than one-fourth that of the fundamental frequency. The welding characteristics of lapped 1.0-mm-thick polypropylene sheets were measured for the cases where the vibration system was driven using combined driving voltages of both fundamental and higher resonance frequencies. The welded area and weld strength increased when fundamental and higher resonance frequencies were driven simultaneously. The welding characteristics of the 67 kHz ultrasonic plastic welding system were improved significantly compared with those of 27 kHz and 40 kHz welding systems by driving fundamental and higher resonance frequencies simultaneously.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2003-05-15
著者
-
Tsujino Jiromaru
Faculty Of Electrical Engineering Kanagawa University
-
Hongoh Misugi
Faculty Of Engineering High-tech Research Center Kanagawa University
-
Ueoka Tetsugi
Faculty Of Electrical Engineering Kanagawa University
-
Yoshikuni Masafumi
Faculty Of Engineering High-tech Research Center Kanagawa University
-
Yoshikuni Masafumi
Faculty of Engineering, Kanagawa University, Yokohama 221-8686, Japan
-
Hashii Hidekazu
Faculty of Engineering, Kanagawa University, Yokohama 221-8686, Japan
関連論文
- Transmission Conditions of Vibration Stresses to Welding Specimens of Ultrasonic Plastic Welding using Various Two-Vibration-System Equipments
- Ultrasonic Vibration Press of Powder Using 20 kHz Upper and Lower Vibration Punches and a Vacuum Compacting Die : Ultrasonic Motor, Actuator and Transducer
- Frequency Characteristics of Ultrasonic Plastic Welding : 27kHz to 180kHz Ultrasonic Plastic Welding Systems(Advanced Technology of Vibration and Sound)
- Temperature Distributions in Welding Specimens for Ultrasonic Plastic Welding Systems Using Various Frequencies
- 119 FREQUENCY CHARACTERISTICS OF ULTRASONIC PLASTIC WELDING : 27kHz TO 180kHz ULTRASONIC PLASTIC WELDING SYSTEMS(O.S.1 Usage of Sound Energy)
- P2-66 Temperature Distributions of Welding Specimens Using Various Frequency Ultrasonic Plastic Welding Systems(Short presentation for poster)
- Studies on Ultrasonic Butt Welding System Using A Large Capacity Static Induction Thyristor Power Amplifier : High Power Ultrasonics
- Welding Characteristics of 40 kHz Ultrasonic Plastic Welding System Using Fundamental and Higher-Resonance-Frequency Vibrations
- Ultrasonic Butt Welding of Aluminum, Copper and Steel Plate Specimens
- Ultrasonic Butt Welding of Large Metal Plates by Shiftirng Welding Tip Driving Position
- Studies on Ultrasonic Welding of Ring Shape Weldment with Two Vibration Systems : High Power Ultrasonics
- P2-63 Ultrasonic Rotary Motors Using Complex Transverse and Torsional Vibration Rods and Multiple BLT Transducers(Short presentation for poster)
- Measurement of the Temperature Rise at the Welding Surface of Different Metal Specimens Joined by a 15 kHz Ultrasonic Butt Welding System
- Welding Characteristics of Ultrasonic Wire Bonding Using the Same or a Different Frequency Complex Vibration Welding Tips : High Power Ultrasonics
- Studies on Ultrasonic Wire Bonding Using the Same or a Different Frequency Complex Vibration Welding Tip : High Power Ultrasonics
- Welding Characteristics of Ultrasonic Wire Bonding Using High-Frequency Vibration Systems
- Welding Characteristics of Ultrasonic Wire Bonding Using High-Frequency Vibration Systems
- Studies on Ultrasonic Butt Welding Using 19 kHz Vibration Systems : High Power Ultrasonics
- Temperature Rise and Welding Characteristics of Various-Frequency Ultrasonic Plastic Welding Systems
- Characteristics of Bending Parts of Metal Plates Using Ultrasonic Bending Systems with a Vibration Punch and a Vibration Die
- Studies on the Ultrasonic Vibration Press of Powder : on the Vibration Press with a Vibration Die : High-Power Ultrasonics
- Characteristics of Two-Vibration-System Ultrasonic Plastic Welding with 90 kHz and 20 kHz Vibration Systems at Right Angles
- Ultrasonic Welding of Thin Metal Plates Using a Complex Vibration Welding Tip : Ultrasonic Motor, Actuator and Transducer
- Temperature Rise and Welding Characteristics of Ultrasonic Wire Bonding Using 190 kHz Linear, Circular and Square Vibration Loci and 600 kHz Linear Vibration Locus Welding Tips
- Welding Characteristics of Thin Copper Wire Using Complex Vibration Ultrasonic Wire Bonding Systems : High Power Ultrasonics
- P3-63 Vibration and Welding Characteristics of a 27 kHz Complex Vibration Source Using a (2,1) Transverse Vibration Disk and Six Bolt-clamped Langevin Type PZT transducers(Poster session 3)
- Configurations of Large Capacity Ultrasonic Complex Vibration Sources with Complex Transverse Vibration Rods and a Disk with Multiple Transducers(Advanced Technology of Vibration and Sound)
- Studies on Ultrasonic Welding with Two Vibration Systems : High Power Ultrasonics
- Characteristics of Metal Weldment Joined by Ultrasonic Butt Welding : High Power Ultrasonics
- Studies on Ultrasonic Plastic Welding with Two Longitudinal Vibration Systems : High Power Ultrasonics
- Studies on Ultrasonic Vibration Press of Powder by Longitudinal Vibration Punches and Various Vibration Mode Dies : High Power Ultrasonics
- P3-60 Configuration of a 150 kHz Ultrasonic Welding Equipment Using a Different Sound Velocity Metal-Ring-Pair Complex Vibration Converter(Poster session 3)
- Load Characteristics of Ultrasonic Motors with a Longitudinal-Torsional Converter and Various Nonlinear Springs for Inducing Static Pressure
- Studies on the Ring Type Magnetic Ultrasonic Vibration Detector : High Power Ultrasonics
- Studies on the Ultrasonic Butt Welding of Metal Plates : High Power Ultrasonics
- Studies on Ultrasonic Butt Welding of Different Metal Plates : High Power Ultrasonics
- Ultrasonic Butt Welding of Aluminum and Stainless Steel Specimens Using a 15 kHz Welding System
- Ultrasonic Plastic Welding Using 90 kHz Upper and Lower Vibration Systems
- Ultrasonic Butt Welding of Anticorrosive Aluminum and Copper Plate Specimens : High Power Ultrasonics
- Load Characteristics and Vibration Loci at the Driving Surfaces of Ultrasonic Rotary Motor using a Longitudinal-Torsional Vibration Converter
- Welding Characteristics of Ultrasonic Seam Welding System Using a Complex Vibration Circular Disk Welding Tip
- Welding Characteristics of Aluminum and Copper Plate Specimens Welded by a 19 kHz Complex Vibration Ultrasonic Seam Welding System
- Driving and Welding Characteristics of An Ultrasonic Butt Welding System Using A Large Capacity Power Amplifier : High Power Ultrasonics
- Ultrasonic Seam Welding System Using a Complex Vibration Circular Disk in Transverse and Torsional Vibrations
- Configuration of a Transverse Vibration Rod Type Ultrasonic Motor Using Three Longitudinal Transducers Driven in Three Different Vibration Phases
- Configuration of a 30-mm-diameter 94 kHz Ultrasonic Longitudinal Vibration System for Plastic Welding
- Studies on Ultrasonic Vibration Bending of Thin Metal Plates : High Power Ultrasonics
- Configurations of Large Capacity Ultrasonic Complex Vibration Sources Using Multiple Longitudinal Transducers Installed in Both Sides of a Transverse Vibration Disk
- Vibration Characteristics of a Large-Capacity Complex Vibration Source Using a Titanium Alloy Complex Transverse Vibration Rod with Two Stepped Parts
- Welding Characteristics of 67 kHz Ultrasonic Plastic Welding System Using Fundamental and Higher-Resonance-Frequency Vibrations