SuField Model PDF
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Summary
This document presents the SuField Model, detailing substance-field analysis, various fields and interactions, and different strategies. The model appears to be a framework for system analysis and design, potentially used in an engineering or science context.
Full Transcript
SuField Model Substance-Field ANALYSIS Approach Within the operative zone, all substances are captured. The most important elements are defined and transferred to the substance-field model. It consists of Substance 1 (S1) and Substance 2 (S2) and...
SuField Model Substance-Field ANALYSIS Approach Within the operative zone, all substances are captured. The most important elements are defined and transferred to the substance-field model. It consists of Substance 1 (S1) and Substance 2 (S2) and one field to exemplify the interrelation. The impact flow is exemplified with arrows. SMASHES (MECH. FIELD) WAVE HOUSE (Substance 2) (Substance 1) Fields Interactions including Gravitation, collisions, friction, direct contact MATChEM Vibration, resonance, shocks, waves Mechanical Gas/Fluid dynamics, wind, compression, vacuum Mechanical treatment and processing Deformation, mixing, additives, explosion Acoustic Sound, ultrasound, infrasound, cavitation Heating, cooling, insulation, thermal expansion Thermal Phase/state change, endo/exothermic reactions Fire, burning, heat radiation, convection Reactions, reactants, elements, compounds Catalysts, inhibitors, indicators (pH) Chemical Dissolving, crystallization, polymerization Odor, taste, change in color, pH Electrostatic charges, conductors, insulators Electric Superconductivity, electrolysis, piezo-electrics Ionization, electrical discharges/sparks Magnetic field, forces and particles, induction Magnetic Electromagnetics waves (X-ray, Microwaves) Optics, vision, color/translucense change, image Fields Interactions including MATChEM-IB Gravitation, collisions, friction, direct contact Vibration, resonance, shocks, waves Mechanical Gas/Fluid dynamics, wind, compression, vacuum Mechanical treatment and processing Deformation, mixing, additives, explosion Acoustic Sound, ultrasound, infrasound, cavitation Heating, cooling, insulation, thermal expansion Thermal Phase/state change, endo/exothermic reactions Fire, burning, heat radiation, convection Reactions, reactants, elements, compounds Catalysts, inhibitors, indicators (pH) Chemical Dissolving, crystallization, polymerization Odor, taste, change in color, pH Electrostatic charges, conductors, insulators Electric Superconductivity, electrolysis, piezo-electrics Ionization, electrical discharges/sparks Magnetic field, forces and particles, induction Magnetic Electromagnetics waves (X-ray, Microwaves) Optics, vision, color/translucense change, image Subatomic (nano) particles, pores, nuclear reactions, radiation, fusion, Intermolecular emission, laser, intermolecular interactions, surface effects, evaporation Biological Microbes, Bacteria, living organisms, plants, fungi, cells, enzymes PROBLEM MODEL: S1 S2 DUST FLOOR Strategy 1: Complete the Triad S1 S2 DUST FLOOR F1 MECHANICAL S1 S2 DUST BROOM Fields Interactions including Gravitation, collisions, friction, direct contact Vibration, resonance, shocks, waves Mechanical Gas/Fluid dynamics, wind, compression, vacuum STRATEGY 2: Acoustic Mechanical treatment and processing Deformation, mixing, additives, explosion Sound, ultrasound, infrasound, cavitation Heating, cooling, insulation, thermal expansion Thermal Phase/state change, endo/exothermic reactions Fire, burning, heat radiation, convection Reactions, reactants, elements, compounds Catalysts, inhibitors, indicators (pH) Chemical Dissolving, crystallization, polymerization Odor, taste, change in color, pH Electrostatic charges, conductors, insulators Electric Superconductivity, electrolysis, piezo-electrics Ionization, electrical discharges/sparks Magnetic field, forces and particles, induction F2 Magnetic Electromagnetics waves (X-ray, Microwaves) Optics, vision, color/translucense change, image F1 Intermolecular Biological Subatomic (nano) particles, pores, nuclear reactions, radiation, fusion, emission, laser, intermolecular interactions, surface effects, evaporation Microbes, Bacteria, living organisms, plants, fungi, cells, enzymes MECHANICAL ? S1 S2 S1 S3 DUST BROOM DUST ? Change the Field/ Substance or Both STRATEGY 2: Additives F1 MECHANICAL S1 S2 S3 DUST Broom Mop F1 MECHANICAL S1 S2 S3 DUST Broom Fields Interactions including Gravitation, collisions, friction, direct contact Vibration, resonance, shocks, waves Mechanical Gas/Fluid dynamics, wind, compression, vacuum STRATEGY 3: Mechanical treatment and processing Deformation, mixing, additives, explosion Acoustic Sound, ultrasound, infrasound, cavitation Heating, cooling, insulation, thermal expansion Thermal Phase/state change, endo/exothermic reactions Fire, burning, heat radiation, convection Reactions, reactants, elements, compounds Catalysts, inhibitors, indicators (pH) Chemical Dissolving, crystallization, polymerization Odor, taste, change in color, pH Electrostatic charges, conductors, insulators Electric Superconductivity, electrolysis, piezo-electrics Ionization, electrical discharges/sparks Magnetic field, forces and particles, induction Magnetic Electromagnetics waves (X-ray, Microwaves) Optics, vision, color/translucense change, image Subatomic (nano) particles, pores, nuclear reactions, radiation, fusion, Intermolecular F1 emission, laser, intermolecular interactions, surface effects, evaporation MECHANICAL F2 Biological Microbes, Bacteria, living organisms, plants, fungi, cells, enzymes S1 S2 S3 DUST Broom Statically Charged Field or Heated Broom Fields Interactions including Gravitation, collisions, friction, direct contact Vibration, resonance, shocks, waves Mechanical Gas/Fluid dynamics, wind, compression, vacuum STRATEGY 4: Mechanical treatment and processing Deformation, mixing, additives, explosion Acoustic Sound, ultrasound, infrasound, cavitation Heating, cooling, insulation, thermal expansion Thermal Phase/state change, endo/exothermic reactions Fire, burning, heat radiation, convection Reactions, reactants, elements, compounds Catalysts, inhibitors, indicators (pH) Chemical Dissolving, crystallization, polymerization Odor, taste, change in color, pH Electrostatic charges, conductors, insulators Electric Superconductivity, electrolysis, piezo-electrics Ionization, electrical discharges/sparks Magnetic field, forces and particles, induction Magnetic Electromagnetics waves (X-ray, Microwaves) Optics, vision, color/translucense change, image Subatomic (nano) particles, pores, nuclear reactions, radiation, fusion, Intermolecular F1 emission, laser, intermolecular interactions, surface effects, evaporation Biological Microbes, Bacteria, living organisms, plants, fungi, cells, enzymes MECHANICAL S1 S2 DUST Broom Broom plus blowing system F2 Mecha nical Fields Interactions including Gravitation, collisions, friction, direct contact Vibration, resonance, shocks, waves Mechanical Gas/Fluid dynamics, wind, compression, vacuum Mechanical treatment and processing Deformation, mixing, additives, explosion Acoustic ENTITY-OBJECT-FIELD ANALYSIS Sound, ultrasound, infrasound, cavitation Heating, cooling, insulation, thermal expansion Thermal Phase/state change, endo/exothermic reactions Fire, burning, heat radiation, convection Examples Reactions, reactants, elements, compounds Catalysts, inhibitors, indicators (pH) Chemical Dissolving, crystallization, polymerization Odor, taste, change in color, pH Electrostatic charges, conductors, insulators Electric Superconductivity, electrolysis, piezo-electrics Ionization, electrical discharges/sparks Magnetic field, forces and particles, induction Magnetic Electromagnetics waves (X-ray, Microwaves) Optics, vision, color/translucense change, image Subatomic (nano) particles, pores, nuclear reactions, radiation, fusion, Intermolecular emission, laser, intermolecular interactions, surface effects, evaporation Biological Microbes, Bacteria, living organisms, plants, fungi, cells, enzymes Steel balls in a steel pipe hit the bending region and wear it out! How can it be prevented? Steel Pipe Ball MATChEMIB https://www.youtube.com/watch?v=57z5Jjm48HQ&feature=youtu.be Mechanical Gravitation, collisions, friction, direct contact Vibration, resonance, shocks, waves Gas/Fluid dynamics, wind, compression, vacuum Mechanical treatment and processing Deformation, mixing, additives, explosion Acoustic Sound, ultrasound, infrasound, cavitation Thermal Heating, cooling, insulation, thermal expansion Phase/state change, endo/exothermic reactions Fire, burning, heat radiation, convection Chemical Reactions, reactants, elements, compounds Catalysts, inhibitors, indicators (pH) Dissolving, crystallization, polymerization Odor, taste, change in color, pH Electric Electrostatic charges, conductors, insulators Superconductivity, electrolysis, piezo-electrics Ionization, electrical discharges/sparks Sample images for Electrical Field Magnetic Magnetic field, forces and particles, induction Electromagnetics waves (X-ray, Microwaves) Subatomic (nano) particles, capillary, pores, Intermolecular Magnetic field, forces and particles, induction nuclear reactions, radiation, fusion, emission, laser, intermolecular interaction, surface effects, evaporation. Information (Sense) Digital Transformation and TRIZ. How can we become inventors in a Digital Era Case Study Light Cinema, a British-based company wanted to build high-end digital theatres in Europe, launched what it calls the world's first "6D Cinema" in Bucharest, Romania. The 40- seat theatre combines 3D movies with environmental elements (rain, wind, odor) as well as chair movement. The idea has not taken off in a big way. Today we can find products such as 9D VR Cinema emerging. This exploration into multi-dimensional user experience is still needed to help in a number of industries, e.g. education, health theraphy. Can TRIZ be used to design a “N-Dimension Cinema”, where N can be more than 9 dimensions. Also can you think of a disruptive business model for using the cinema that you have designed. Examples of disruptive business models include Grab, Air BnB, Netflix. Case Source: Radical Innovations by Pravin Rajpal cinema audience system cinema/ learner learning/ patient healing person system Example: Design the future Cinema List Dimensions using Multi-Screen Thinking Time Purchase Delivery Use Supplements Maintenance Disposal At high Space Home Work Fun On-the-move Outside UNIMAS altitudes Multi Senses Quality Usability Aesthetic Productivity Reliability Efficiency Adaptability Sight Sound Cinema Environment, Smell Goal of Taste Movie/Programme Touch Linguistic Musical Logical Spatial Audience Interactions Kinesthetic Inter-personal Intra-personal Dimensions STEM is about Energy Field ? Inventive Water Design ? Case Study How did IBM respond to solve the problem? false medication patient F1 F1 S1 S2 S1 S2 Introduce another Introduce Substance to break the another Field to F break the S3 harmful effect MATChEM harmful effect false patient medication Can you use TRIZ to Solve this new problem?
