Science Links Japan | Machine Design

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Machine Design

Pneumatic control design and application manual. Recent research trends of pneumatic equipment and system.
Pneumatic control design and application manual. Characteristics of air ( air pressure ) and basic knowledge.
Pneumatic control design and application manual. Terminology, figure/ symbol and regulation related to air pressure.
Pneumatic control design and application manual. Compressor. Mainly on the positive displacement/turbo/centrifugal compressors.
Pneumatic control design and application manual. Pneumatic actuator. Cylinder/rotary actuator/air motor/ switch for cylinder.
Pneumatic control design and application manual. Type, features and selection of the pneumatic control valve.
Pneumatic control design and application manual. Directional control valve for the forging machine. Dual valve corresponding to the revision of standards.
Pneumatic control design and application manual. Conditioning equipment ( air control unit ). Mainly on the air filter/lubricator.
Pneumatic control design and application manual. Attachment equipment. Piping/joint/muffler/air dryer/switch sensor for cylinder /pneumatic-hydraulic converter/pressure intensifier.
Pneumatic control design and application manual. Technlological trends and selection of seal and packing for pneumatic application.
Pneumatic control design and application manual. Base and application of control circuit and electric circuit. Electricity sequence circuit/pneumatic circuit.
Pneumatic control design and application manual. Precaution in the assembly of pneumatic equipment and system.
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Knowledge indispensable to fresh designer. Contd, 50 examples of design experience rule.
Servomotor and control technology understood by experiment. The second. Speed characteristics of DC motor.
"Empiricism" advice to fresh designer 2. Drawing method.
Surface reforming technology. Present state of surface treatment and reforming.
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Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART1. World of the virtual prototyping. What is the virtual prototyping ?
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART1. World of the virtual prototyping. Basic knowledge for the application of mechanism analysis understandable for beginner.
Practice and possibility of the virtual prototyping. Utilization technique of familiarized mechanism analysis tool. PART2. Integrl application with three-dimensional CAD. Virtual prototyping by I-DEAS.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART2. Integral application with three-dimensional CAD. Virtual prototyping by CATIA.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART2. Integral application with three-dimensional CAD. Virtual prototyping by designer edition software DDM(Dynamic Designer Motion).
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART3. ADAMS application example. Application in the belt type conveying machine. Construction of a conceptional design CAD system.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART3. ADAMS application example. Application in the development of a truck. Effectiveness of the time history response analysis.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART3. ADAMS application example. Application of the vibratory control technology to robot design. Development of a simulator which integrates order system and control system.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART3. ADAMS application example. Application in the rolling stock. Co-relation process of experiment and analysis is important.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART3. ADAMS application example. Application in the automobile door design. Result in the improvement of the evaluation accuracy and the evaluation of design change effect.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART4. Report from the education field. Mechanical design education applying CAD/CAE.
Practice and possibility of the virtual prototyping. Application technique of familiarized mechanism analysis tool. PART4. Report from the education field. Application of mechanism analysis system in a seminar "mechanism design".
High speed communication technology in the servo control.
Design of the machine not to cause a trouble studied from examples. (13) Trouble of poor positioning accuracy ( Part 1).
Mechanisms design note (162). Mechanism of the health equipment.
Mechatronics lecture for the machine designer. Servomotor and control technology to be understood through experiment. The third. Speed control of DC motor (1).
"Empiricism" advice to fresh designer (3). Usage of the machine element in the assembly drawing.
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Introduction of fastening technology of the machine for fresh designer I. Screw edition, General remarks. Screw fastening as an important basic technology.
Introduction of fastening technology of the machine for fresh designer I. Screw edition, Basic technology. Strength characteristics of the screw and screw fastening body.
Introduction of fastening technology of the machine for fresh designer I. Screw edition, Basic technology (2). Proper tightening management of the screw.
Introduction of fastening technology of the machine for fresh designer I. Screw edition, Basic technology. Strength design of the screw fastening body. Guideline of screw selection.
Introduction of fastening technology of the machine for fresh designer I. Screw edition, Measures for locking (1). Mechanism of looseness and design of locking.
Introduction of fastening technology of the machine for fresh designer I. Screw edition, Measures for locking (2). Guide of adhesive selection for locking.
Introduction of fastening technology of the machine for fresh designer II. Calking edition. Calking fastening technology and strength characteristics.
Introduction of fastening technology of the machine for fresh designer III. Trouble case study (1). Design examples in the screw fastening part. Crosslink from the textbook to the business.
Introduction of fastening technology of the machine for fresh designer III. Trouble case study (2). Trouble examples of the calking fastening.
Trends of European machine safety standard looking at the world standard ( First part ).
Mechatronics lecture for machine designer. Servomotor and control technology to be understood through experiment. The fourth. Speed control of DC motor (2).
Efficient use of data for shortening of the development lead time. Be three-dimensional CAD effective for the lead time shortening ?
Design of the machine not to cause a trouble studied from examples (14). Trouble of positioning accuracy ( Part 2 ).
"Empiricism" advice to fresh designer (4). Drawing method of parts.
Mechanisms design note (163). Mechanism used for the construction equipment.
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Maintenance control and troubleshooting of hydraulic equipment and system. Approach and checkpoint of the hydraulic equipment design. Mainly on the general rule of hydraulic system.
Maintenance control and troubleshooting of hydraulic equipment and system. Maintenance control and troubleshooting of the pump.
Maintenance control and troubleshooting of hydraulic equipment and system. Maintenance control and troubleshooting of valve.
Maintenance control and troubleshooting of hydraulic equipment and system. Maintenance, inspection and troubleshooting of hydraulic actuator and design approach.
Maintenance control and troubleshooting of hydraulic equipment and system. Maintenance control of the hydraulic unit. Mainly on hydraulic oil, noise, vibration, and oil leakage.
Maintenance control and troubleshooting of hydraulic equipment and system. Hydraulic unit ( power package ) considering the maintenance control.
Maintenance control and troubleshooting of hydraulic equipment and system. Precautions for use of the packings and seals for the hydraulic equipment and troubleshooting.
Maintenance control and troubleshooting of hydraulic equipment and system. Maintenance and inspection of the filter and the precaution to prevent a trouble.
Maintenance control and troubleshooting of hydraulic equipment and system. Characteristics of the hydraulic oil and maintenance control.
Maintenance control and troubleshooting of hydraulic equipment and system. Maintenance of hydraulic system and oil in the steel mill facilities.
Maintenance control and troubleshooting of hydraulic equipment and system. Maintenance, inspection and troubleshooting of the hydraulic shovel from the viewpoint of hydraulic oil.
Application of the hydraulic/pneumatic actuator in the railway rolling stock.
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Design of transmission mechanisms by helical toothed belts. General remarks. Present state and future prospects of helical toothed belts.
Design of transmission mechanisms by helical toothed belts. Chapter 1. Noise of helical toothed belts and countermeasures for it.
Design of transmission mechanisms by helical toothed belts. Chapter 2. Offset and life of helical toothed belts.
Design of transmission mechanisms by helical toothed belts. Chapter 3. Fluctuation of rotational speed of helical toothed belts.
Design of transmission mechanisms by helical toothed belts. Chapter 4. Toothed pulleys from the viewpoint of gear wheels.
Design of transmission mechanisms by helical toothed belts. Chapter 5. Improvement of printed images of serial printers.
Design of transmission mechanisms by helical toothed belts. Chapter 6. Reduction of noise and vibrations in CT scanners.
Design of transmission mechanisms by helical toothed belts. Chapter 7. Present state and future prospects of production of helical toothed belts. (1).
Design of transmission mechanisms by helical toothed belts. Chapter 8. Present state and future prospects of production of helical toothed belts. (2).
Points in designing transmission mechanisms by mini-ropes.(1). Outlines of miniature wire ropes.(2). Points and procedures in designing mini-rope transmission mechanisms. (3). Calculation for selecting mini-ropes. (4). How to calculate moment of inertia of area of wire ropes.
Ladder control type servo control system.
Trends of European machine safety standards looking for world wide standards. (Part 2).
Notes on design of mechanisms. (167). Niche type products.
Experience of failure teaches us psychological pitfalls in bad design and trouble occurence. (25).
Experiments for understanding servo motors and control technology. Fifth. Dynamic characteristics of DC motors. (1).
Design of trouble-free machines and its examples. (15). Troubles due to poor positioning accuracy. (Part 3).
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Selection in the transition of CAD system. Burgeoning introduction of three-dimensional CAD. Trends. Intensified direction to three dimension and low cost.
Selection in the transition of CAD system . Burgeoning introduction of three-dimensional CAD. My observation. New power is appearing in the spreading period of three-dimensional CAD.
Selection in the transition of CAD system. Burgeoning introduction of three-dimensional CAD. Challenge to three-dimensional design. Trial for improvement in design quality for the purpose of the realization of a concurrent merchandizing process.
Selection in the transition of CAD system. Burgeoning introduction of three-dimensional CAD. Challenge to three-dimensional design. Success in 3-dimensionalizaion by forming a project team, resulting in shortend design lead time by 50%.
Selection in the transition of CAD system. Burgeoning introduction of three-dimensional CAD. Challenge to three-dimensional design. Shift from a mere drawing work to original thinking of design by the utilization of three-dimensional solid.
Selection in the transition of CAD system. Burgeoning introduction of three-dimensional CAD. Challenge to three-dimensional design. Construction of an introduction concurrent system as a basic tool.
Selection in the transition of CAD system. Burgeoning introduction of three-dimensional CAD. Point of system construction aiming at the introduction of three-dimensional CAD.
Selection in the transition CAD system. Burgeoning introduction of three-dimensional CAD. Hidden cost in the CAD system.
Adaptability test of mechanical seal for API 682.
Features and principle of a new generation stepping motor unit having adopted AMS control.
Trouble-free machine designing learned from actual cases (16). Trouble case caused by an error in kinematic analysis (upper part).
Retainer of antifriction bearing strengthened with glass fiber. Resistance to temperatures and lubricant.
Escapement type powerless brake gear capable of demonstrating effect in power failure.
Servomotor and control technology able to be understood by experiment (No.6). Dynamic characteristic of DC motor (2).
Automation of the machining of connector pin.
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Introduction of machine control using Visual Basic.
Mechatronics lecture for the mechanical designer. Servomotor and control technology understood by the experiment. The seventh. Brushless motor.
Automation of coring the seeds of muscat grape.
Design of the machine not to cause a trouble studied from examples. (17) Trouble examples by the error of the kinematic analysis ( Second ).
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Design point and examples of hydraulic and pneumatic control circuit, General remarks. Expression of basic mechanism of the hydraulic control circuit and design examples.
Design point and examples of hydraulic and pneumatic control circuit, General remarks. Type of of the pneumatic circuit and expression of each mechanism. JIS in relation with ISO Standard.
Design point and examples of hydraulic and pneumatic control circuit, General remarks. Recent needs to the hydraulic technology and the correspondence to the control circuit.
Design point and examples of hydraulic and pneumatic control circuit, Detailed discussion. Point on circuit design of hydrostatic drive and control section, and typical circuit example.
Design point and examples of hydraulic and pneumatic control circuit, Detailed discussion. Circuit design point and trends of pneumatic drive system, control, and detecting element.
Design point and examples of hydraulic and pneumatic control circuit, Detailed discussion. Development example of the hydraulic control system using the simulation.
Design point and examples of hydraulic and pneumatic control circuit, Detailed discussion. Simulation of the pneumatic circuit using the software tool for the control system analysis design.
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Re-entry of the introduction to the calculation of GD 2. Such misunderstanding is a base of trouble. Right technique of inertia calculation.
Analysis of the thermohydrodynamics and its role for mechanical design. The outline. Thermohydrodynamic analysis. Role of thermohydrodynamic analysis for the mechanical design.
Analysis of the thermohydrodynamics and its role for mechanical design. Design of the ignition plug and thermohydrodynamics.
Analysis of the thermohydrodynamic and its role for mechanical design. Design of a flat heat pipe and thermohydrodynamic analysis.
Analysis of the thermohydrodynamic and its role for mechanical design. Design of the hydraulic equipment and hydraulic analysis.
Analysis of the thermohydrodynamic and its role for mechanical design. Design of water hydraulic machine and hydraulic analysis.
Looseness of the screw and proposal of its prevention measures. Fastening function of the nut and a nut with looseness prevention function. Based on the development and practical application of the nut with skirt.
Mechanisms design note (168). Civil engineering/land improvement machine mechanism.
Servomotor and control technology to be understood by the experiment. The eighth. Let's have a look at it in the simulation (1).
Studying from the examples. Design of the machine not to cause a trouble (18). Trouble examples caused by the error of the kinematic analysis ( Last ).
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Point of the recycling design immediately useful. General remarks. Approach to the recycling design with high profitability.
Point of the recycling design immediately useful. Example 1. Television design from the viewpoint of the recycling.
Point of the recycling design immediately useful. Example 2. Challenge to the design of the television considering the recycling.
Point of the recycling design immediately useful. Example 3. Recycling design of the household appliances by Mitsubishi Electric.
Point of the recycling design immediately useful. Example 4. Challenge to the environmental consideration enhancement type goods.
Point of the recycling design immediately useful. Example 5. Challenge to information household appliances considering the environment.
Point of the recycling design immediately useful. Example 6. Design correspondent to recycling in RICOH.
Point of the recycling design immediately useful. Example 7. Recycling design of the automobile.
Point of the recycling design immediately useful. Example 8. Challenge to the product assessment in the office furnitures.
Point of the recycling design immediately useful. Example 9. Challenge to environmental loading reduction in OMRON.
Design of the machine not to cause a trouble studied from examples. 19 Usage of the kinematic analysis technique ( Part 1 ).
Mechatronics course for the mechanical designer. Servomotor and control technology understanding by the experiment. The ninth, Let's try to observe it in the simulation (2).
Design technique of the coolant system ( tank and cooling system ) of the grinder.
Drive system for a screening system. Part .IOTA., The drive to transmit the force by positive contact ( convex contact ) and frictional contact ( frictional contact ).
13
Trouble improvement case collection of the mechanical design which utilizes the failure experience of the predecessor.
Servomotor and control technology understood by the experiment.The 10th. Desktop experiment of the brushless motor.
14
Introduction text for strength of material useful for the practical design 1 Product development and evaluation of the strength.
Introduction text for strength of material useful for the practical design 2 Load and vibration 2.1 Load.
Introduction text for strength of material useful for the practical design 2 Load and vibration 2.2 Vibration, vibration phenomenon, load and vibration design.
Introduction text for strength of material useful for the practical design 3 Flow of the force.
Introduction text for strength of material useful for the practical design 4 Fatigue fracture.
Introduction text for strength of material useful for the practical design 5 Evaluation.
Design and manufacturing of the formed plastic gear. Design of the plastic gear using a software ( Part 1 ).
Points of the simple mechanical drawing; The first. Eight abilities necessary for the machine designer.
Servomotor and control technology understood by the experiment; The 11th. Production of a PID speed control simulator.
Machine design which does not cause the trouble to be studied from the examples. (20) Usage of the kinematic analysis technique ( Part 2 ).
15
Trend and market prospect of the hydro-pneumatic industry.
The technlological trend of recent pneumatic equipment.
The impression of the hydraulic technology at the Hannover Messe '99. Mainly on the hydraulic cylinder.
16
Linear motor in the real practical use stage. General remarks. Why do we take up a linear motor at present ?
Linear motor in the real practical use stage.Features and characteristics of the linear motor.
Linear motor in the real practical use stage.Measurement and control of the linear drive system.
Linear motor in the real practical use stage.Future view of the linear motor.
Linear motor in the real practical use stage.Practical application example of the linear motor. OA equipment.
Linear motor in the real practical use stage.Practical application example of the linear motor. Elevator.
Linear motor in the real practical use stage.Practical application example of the linear motor. Electric motor driven curtain.
Linear motor in the real practical use stage.Practical application example of the linear motor. Transportation system.
Linear motor in the real practical use stage.Practical application example of the linear motor. Transportation equipment.
Linear motor in the real practical use stage.Practical application example of the linear motor. High-speed machining center.
Linear motor in the real practical use stage.Practical application example of the linear motor. High speed machine tool.
Linear motor in the real practical use stage.Practical application example of the linear motor. Machine tool.
Linear motor in the real practical use stage.Practical application example of the linear motor. Actuator.
Design and manufacturing of the molded plastic gear. Design of the plastic gear using the software ( Part 2 ).
Application method of 3D virtual design simulator "FJVPS". Digital mock-up, effect on environmental design.
Servomotor control technology to be understood by experiment; The 12th. Basic knowledge of Visual Basic.
Points of the simple mechanical drawing; The 2nd. Is drawing methodology necessary for designing ?
Design of the machine not cause the trouble studied from the examples 21. Usage of the kinematic analysis technique ( Part 2 ).
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Engineer will be in great demand by mastering three-dimensional CAD !! Three-dimensional CAD easy to understand starting from nothing about it.
Engineer will be in great demand by mastering three-dimensional CAD !! Introduction of elementary three-dimensional modeling. Let's acquire the basis of the solid modelling.
Engineer will be in great demand by mastering three-dimensional CAD !!Introduction of the elementary three-dimensional modeling. Let's try to make the cover of the planetary gear reducer.
Let's win the competition by the application of three-dimensional CAM !! Merit and application point of three-dimensional CAM.
Let's win the competition by the application of three-dimensional CAM !! Let's try to use the three-dimensional CAM data.
CAE for the designer.
Rapid prototyping for the first time. For period shortening of development and production planning and cost reduction.
Two-dimensional CAD new era. ME10. Version 10.
Digital renovation forefront of design and drawing education. CAD/CAM/CAE education for creativity and manufacturing.
Digital renovation forefront of design and drawing education. Conversion to the design education with three-dimensional CAD.
Digital renovation forefront of design and drawing education. CAD/CAM/CAE education in technical college and technical high school.
Digital renovation forefront of design and drawing education. CAD/CAM education in the universities in U.S.A..