CONTENTS
Chapter 1Introduction to Rice Harvesting
1ª±1Introduction for Rice Harvesting
1ª±1ª±1Developing of rice harvesting
1ª±1ª±2Chinese combine harvester of rice
1ª±2Field Growth Status of Rice at Maturity
1ª±3Rice Grain Properties and Modeling
1ª±3ª±1Morphological structure of rice grain
1ª±3ª±2Mechanical properties of rice grains
1ª±4Rice Stem Properties and Modeling
1ª±4ª±1Morphological structure of rice stem
1ª±4ª±2Mechanical properties of rice stems
1ª±4ª±3Breaking force distribution and breaking mode
1ª±5Rice Leaves Properties and Modeling
1ª±5ª±1Rice leaves and tensile test property
1ª±5ª±2Threeª²point stretching of blades
1ª±5ª±3Tensile performance at different temperatures
1ª±5ª±4Moisture content law at different temperatures
1ª±5ª±5Tensile properties of multiple blades
1ª±6Control Method for Rice Plant Break Property
1ª±6ª±1Rice stem breaking force
1ª±6ª±2Rice leaves breaking force
1ª±6ª±3Changing of rice microstructure
Chapter 2Rice Stem Cutting and Conveying Equipment
2ª±1Introduction to Cutting and Conveying
2ª±1ª±1Structure of front header
2ª±1ª±2Structure of pentagon reel
2ª±1ª±3Structure of cutting bar
2ª±1ª±4Structure of combine auger
2ª±1ª±5Structure of assembly of front header
2ª±2Static Analysis of Front Header
2ª±2ª±1ANSYS simulation of front header
2ª±2ª±2Experiment mode of front header
2ª±3Stems Cutting Situation and Property in Field
2ª±3ª±1Rice stems cutting property
2ª±3ª±2Stems cutting situation in the field
2ª±4Dynamic Property during Cutting Process
2ª±4ª±1Vibration test method of front header
2ª±4ª±2Frame vibration of front header
2ª±4ª±3Cutting table rack vibration on land
Chapter 3Rice Threshing and Separation Method
3ª±1Threshing and Separate Model of Rice Grain
3ª±1ª±1Grain threshing and separation model
3ª±1ª±2Threshing and separation test of model
3ª±2Rice Stalk Movement during Rice Threshing
3ª±2ª±1Numerical model of threshing unit
3ª±2ª±2Straw movement speed and trajectory
3ª±2ª±3Eccentric load in threshing process
3ª±3Design and Optimization of Threshing Cylinder
3ª±3ª±1Negative pressure spiral feeding device
3ª±3ª±2Design of threshing cylinder cover
3ª±3ª±3Length optimization of threshing cylinder
3ª±3ª±4Design of transverse and longitudinal combined
3ª±3ª±5Design of transverse threshing multiª²cylinders
3ª±4Threshing Results with Different Mature States
3ª±4ª±1Different mature states of rice
3ª±4ª±2Threshing and separation performance
3ª±5Parameters Prediction and Control of Rice Threshing
3ª±5ª±1Threshing torque and force of drum
3ª±5ª±2Methods of optimal parameter prediction
3ª±5ª±3Threshing cylinder parameter control
Chapter 4Damage of Rice in Threshing Process
4ª±1Threshing Force of Cylinder Threshing Bar
4ª±1ª±1Threshing force test method of threshing bar
4ª±1ª±2Threshing force of cylinder acting on stem
4ª±2Damage Property of Rice with Threshing Force
4ª±2ª±1Possibility of rice stalk damage
4ª±2ª±2Breaking property with combined force on stem
4ª±2ª±3Breaking property of rice leaves undergoing
4ª±3Microstructure of Rice Stalk after Threshing
4ª±4Grain Damage in Threshing Process
4ª±4ª±1Grain damage model undergoing threshing
4ª±4ª±2Mechanical characteristic parameters of rice grains
4ª±4ª±3Damage model of rice internal damage
4ª±4ª±4Internal damage of grain by threshing bars
Chapter 5Cleaning Device and Conveying Process
5ª±1Mixture Property of Rice after Threshing
5ª±1ª±1Floating speed test method of cleaning materials
5ª±1ª±2Floating speed of cleaning materials
5ª±2Influence of Air Flow in Cleaning Device
5ª±2ª±1Airª²andª²screen cleaning device
5ª±2ª±2Air velocity test in the cleaning room
5ª±2ª±3Floating distribution state of mixture
5ª±3Theories of Rice Grain Cleaning Process
5ª±3ª±1Vibration screening motion theory
5ª±3ª±2Grains group separating theory
5ª±3ª±3Cleaning capability of queuing model
5ª±4Airª²andª²screen Cleaning under Multiª²parameter
5ª±4ª±1CFD simulation of airflow field
5ª±4ª±2Fluidª²solid coupling in cleaning room
5ª±4ª±3Distribution and loss rate of cleaned grain
Chapter 6Humanª²Machine Interface Chassis Platform
6ª±1Humanª²Machine Driving Operation Platform
6ª±1ª±1Rice combine harvester cab
6ª±1ª±2Cab maneuvering space layout
6ª±2Crawler Chassis Structure of Combine Harvester
6ª±2ª±1Overall structure of crawler chassis
6ª±2ª±2Main variable of crawler chassis
6ª±3Development of Crawler Steering Gearbox in Field
6ª±3ª±1Unilateral brake steering gearbox
6ª±3ª±2Positive and negative steering gearbox
6ª±3ª±3Tracks and trajectory of steering gearbox
6ª±4Design of Chassis Frame and Threshing Frame
6ª±4ª±1Structural design of chassis frame
6ª±4ª±2Structural design of threshing frame
6ª±5Bearing Capacity Analysis for Crawler Chassis
6ª±5ª±1Chassis frame structure load and stress state
6ª±5ª±2Analysis of carrying capacity of chassis frame
6ª±5ª±3Test of carrying capacity of chassis frame
Chapter 7Dynamic Load during Rice harvesting
7ª±1Integrated Status of Combine Harvester
7ª±1ª±1Component of combine harvester
7ª±1ª±2Combine harvester integration
7ª±2Dynamic Load of Rice Harvesting
7ª±2ª±1Transmission of combine harvester
7ª±2ª±2Dynamic load test method in field
7ª±2ª±3Affordability load of rice harvesting
7ª±3Dynamic Load of Crawler Drive Shaft
7ª±3ª±1Structure and stress of drive shaft
7ª±3ª±2Dynamic load test method of drive shaft
7ª±3ª±3Dynamic load undergoing different condition
7ª±4Reliability and Fatigue of Chassis Gearbox
7ª±4ª±1Structure principles of tracked gearbox
7ª±4ª±2Gear strength of tracked gearbox
7ª±4ª±3Chassis gearbox fatigue test
Chapter 8Dynamic Response Undergoing Harvesting
8ª±1Component Vibration of Combine Harvester
8ª±1ª±1Frame vibration of front header
8ª±1ª±2Unbalanced vibration of threshing cylinder
8ª±1ª±3Vibration response of harvester chassis frame
8ª±2Vibration Modal of Whole Combine Harvester
8ª±2ª±1Frame vibration model under multiª²source excitation
8ª±2ª±2Vibration response with field excitation
8ª±2ª±3Unbalance vibration modeling of grading chain drive
8ª±3Mutual Interference and Coupling Response
8ª±3ª±1Coª²frame multiª²cylinder test bench in rice threshing
8ª±3ª±2Modal response under multiª²source excitation
8ª±4Dynamic Simulation Model of Combine Harvester
8ª±4ª±1Multiª²source excitation forces of rice combine harvester
8ª±4ª±2Comparison of simulation results and test results
Chapter 9Rice Straw Harvester in Field
9ª±1Straw Treatment after Rice Harvesting
9ª±2Method for Straw Picking and Baling Harvester
9ª±2ª±1Conceptual model of picking and baling machine
9ª±2ª±2Design method of picking and baling harvester
9ª±2ª±3Structural model of picking and baling machine
9ª±3Vibration Property during Picking and Baling
9ª±3ª±1Inertial vibration of crank slider
9ª±3ª±2Crank linkage structure dynamics
9ª±3ª±3Natural frequency and modal of piston
9ª±3ª±4Vibration property during machine running
9ª±4Straw Picking and Baling after Harvesting in Field
9ª±4ª±1Bundling capacity of machine
9ª±4ª±2Baling performance in field
9ª±5Harvesting and Bundling Integrated Harvester
9ª±5ª±1Harvesting and bundling combine harvester
9ª±5ª±2Straw bundling of integrated combine harvester
References
