K14. If! ACTION OBJECT 01. (43) Pub. Date: NOV. 23, 2006 TATUS QUO FIELD : ENEEGY' FORCE TECHNICAL PROBLEM MAIN CAUSE SOLUTION CONCEPT 13
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1 US A1 (19) United States (12) Patent Application Publication (10) Pub. No.: US 2006/ A1 Kosha (43) Pub. Date: NOV. 23, 2006 (54) METHOD FOR ESTIMATING MAIN CAUSE OF TECHNICAL PROBLEM AND METHOD FOR CREATING SOLUTION CONCEPT FOR TECHNICAL PROBLEM (75) Inventor: Hideaki Kosha, KanagaWa (JP) Correspondence Address: SUGHRUE MION, PLLC 2100 PENNSYLVANIA AVENUE, N.W. SUITE 800 WASHINGTON, DC (US) (73) Assignee: FUJI PHOTO FILM CO., LTD. (21) Appl. No.: 11/432,487 (22) Filed: May 12, 2006 (30) Foreign Application Priority Data May 12, 2005 (JP) Aug. 3, 2005 (JP) Oct. 4, 2005 (JP) Publication Classi?cation (51) Int. Cl. G06F 15/18 ( ) G06E 1/00 ( ) G06E 3/00 ( ) G06G 7/00 ( ) (52) us. c /19; 706/20 (57) ABSTRACT Functions of a Whole technical system are regarded as a single conversion process in Which an input is converted into an output. The conversion process is observed according to condition changes and divided into plural sub-processes. A phenomenon in each sub-process is analyzed and the sub process in Which the technical problem is occurring is estimated. Thereafter, the main cause of the technical prob lem is estimated With reference to a technical problem classi?cation system list in Which various technical prob lems are classi?ed and their main causes are systematically organized. Under assumption that the technical system in an ideal state has no technical problem, a solution concept to the technical problem is created is created by?nding means for reducing a value in the item selected from the technical problem classi?cation system list to Zero FIELD : ENEEGY' FORCE OBJECT 01 I 54 If! ACTION :1 OBJECT O2 TATUS QUO K14 9 TECHNICAL PROBLEM MAIN CAUSE SOLUTION CONCEPT 13 11
2 Patent Application Publication Nov. 23, 2006 Sheet 1 0f 37 US 2006/ A1 2 w _. zmqmomm $8 = 79a was; NO PomEO $22202 F. 2 E8200 zoiaom I 422%?
3 Patent Application Publication Nov. 23, 2006 Sheet 2 0f 37 US 2006/ A1 ESTIMATE FUNCTION OF WHOLE TECHNICAL M S1 SYSTEM AS CONVERSION PROCESS - I DIVIDE CONVERSION PROCESS INTO PLURAL SUB-PROCESSES, FROM VIEWPOINT OF CONDITION CHANGES ESTIMATE FUNCTION BY ANALYZING /\1 S3 PHENOMENON IN EACH SUB-PROCESS I ESTIMATE SUB-PROCESS IN WHICH / TECHNICAL PROBLEM IS OCCURRED V ESTIMATE MAIN CAUSE OF TECHNICAL PROBLEM WITH REFERENCE S2 TO TECHNICAL PROBLEM FIG CLASSIFICATION. 3 SYSTEM LIST 'V f 22 INPUT DRIVING FORCE 21 (ENERGY, FORCE) PROCESS CONVERSION PROCESS 23 ' ' A} 25 OUTPUT I
4 Patent Application Publication Nov. 23, 2006 Sheet 3 0f 37 US 2006/ A1 wnz 3E. 5%: A p a? mw?oimaaza c o $ a. 5:8-m5m Ea M m A \ m $223 8%,; wzsaa v > A Q22 émmze N $ % a W m 8 : Fig-5 960% c. m \l/l i V S Q MN H x >
5 Patent Application Publication Nov. 23, 2006 Sheet 4 0f 37 US 2006/ A1 FIG.5 PHENOMENON-ATTRIBUTE ANALYSIS OF CHANGE IN SUB-PROCESS AzSUB-PROCESS B;FUNCTION, INFLUENCE OF SUB PROCESS ON (ACTION) COMPONENT LAYER OR ON COMPONENT MATERIAL ClzDESCRIPTION DESCRIPTION OF ESTIMATED CHANGE IN Z 01: PHENOMENON SUB-PROCESS AND. OF PHENOMENON E O I CAUSING THE CHANGE E Z <: LL] C2zlLLUSTRATION ILLUSTRATION OF ESTIMATED CHANGE Z 2 OF PHENOMENON IN SUB-PROCESS AND OF PHENOMENON a % CAUSING THE CHANGE m. 5% C3 :DRIVING ENERGY OR FORCE CAUSING THE ABOVE 0 a. FORCE PHENOMENON C4zESTIMATED EVIDENCE INFORMATION AS BASIS FOR ESTIMATING CHANGE AND PHENOMENON IN SUB-PROCESS. UNCLEAR POINTS AND QUALITY ggsljgggllgqs OR EzFUNCTION ACHIEVEMENT EVALUATION ITEMS CONCERNS OF ESTIMAGED CHANGE IN SUB-PROCESS AND OF PHENOMENON ITEMS FOR EVALUATING FUNCTION ACHIEVEMENT F: RELATED DESIGN PARAMETERS FOR OBTAINING ATTRIBUTES NECESSARY PRODUCT FUNCTION BASED ON THE ABOVE CHANGE G: TASK NECESSARY ACTION FOR CLARIFYING DESIGN PARAMETERS AND CONCERNS
6 Patent Application Publication Nov. 23, 2006 Sheet 5 0f 37 US 2006/ A1 FIG.6 PHENOMENON ANALYSIS FLOW 1. WHAT IS ENERGY (OR FORCE) TO FOCUS ON? 2. WHAT (PHENOMENON) IS OCCURRING WITH REGARD TO ABOVE ENERGY (OR FORCE) IN THIS SUB-PROCESS? 3. WHAT (FUNCTION) IS DESIRABLY ACHIEVED IN THIS SUB-PROCESS? ' 4. WHAT ARE LIMITING CONDITIONS OF FUNCTION IN THIS SUB-PROCESS? 5. SPACE AND TIME FOR EVALUATING ACHIEVEMENT OF ABOVE FUNCTION? 6. DESIRABLE ACHIEVEMENT LEVEL IN ABOVE SPACE AND TIME? 7. EXTENT OF SPATIAL AND TEMPORAL DISTRIBUTION OF REQUIRED FUNCTION ACHIEVEMENT? 8. WHAT IS PRESENT PROBLEM.7 9. WHICH CATEGORY IN CLASSIFICATION SYSTEM LIST CORRESPONDS TO THE PROBLEM? 10.WHAT IS IMPORTANT PHENOMENON IN THIS SUB-PROCESS? (AND REASON?)
7 Patent Application Publication Nov. 23, 2006 Sheet 6 0f 37 US 2006/ A1 FIG.7 TECHNICAL PROBLEM CLASSIFICATION SYSTEM LIST A: FUNCTION ACHIEVEMENT LEVEL IS EXCESSIVE LRELATIONSHIP BETWEEN INITIAL ENERGY (OR FORCE) AND ACTION 2.CONCENTRATION (DISTRIBUTION) OF ENERGY (OR FORCE) (1) SPATIAL CONCENTRATION (2) TEMPORAL CONCENTRATION 3. RISE BY OTHER ENERGY (OR FORCE) B: FUNCTION ACHIEVEMENT LEVEL IS UNSTABLE 1.FLUCTUATION (VIBRATION, VORTEX, TURBULANCE, UNNEVENNESS) i: PERIODIC FLUCTUATION (1) SPATIAL PERIODICITY (SHAPE AND THE LIKE) (2) TEMPORAL PERIODICITY ii: NONPERIODIC FLUCTUATION (I) SPATIAL NONPERIODICITY (SHAPE AND THE LIKE) (2) TEMPORAL NONPERIODICITY 2. OVERLAP OF NONSTATIONARY ACTION C: FUNCTION ACHIEVEMENT LEVEL IS INSUFFICIENT 1. RELATIONSHIP BETWEEN INITIAL ENERGY (OR FORCE) AND ACTION 2. EFFICIENCY OF ENERGY (OR FORCE) (1) SPATIAL DISPLACEMENT ' a: POSITIONAL DISPLACEMENT b: DIRECTIONAL DISPLACEMENT c: DISTRIBUTION (DIFFUSION) (2) TEMPORAL DISPLACEMENT 3. CONSUMPTION OF ENERGY (OR FORCE) IN OTHER ACTION (INCLUDING THERMAL VIBRATION) D: OCCURRENCE OF UNDESIRABLE EFFECT (HARMFUL FUNCTION)
8 Patent Application Publication Nov. 23, 2006 Sheet 7 0f 37 US 2006/ A1 FIG.8A TECHNICAL PROBLEM CLASSIFICATION SYMBOL LIST (No.1) A,C: EXCESS 0R INSUFFICIENCY IN FUNCTION ACHIEVEMENT LEVEL 1. RELATIONSHIP BETWEEN INITIAL ENERGY (OR FORCE) AND ACTION [EXCESS OR INSUFFICIENCYI lgf DESIRED RELATIONSHIP '- /\PRESENT RELATIONSHIP 2. CONCENTRATION OR DIFFUSION (DISTRIBUTION) OF ENERGY (OR FORCE) [EXCESS OR INSUFFICIENCY] (1) SPATIAL CONCENTRATION OR DIFFUSION CONCENTRATION DIFFUSION 3. EFFICIENCY OF ENERGY (OR FORCE) IINSUFFICIENCY] (I) SPATIAL DISPLACEMENT (2) TEMPORAL CONCENTRATION OR DIFFUSION a: POSITIONAL DISPLACEMENT b: DIRECTIONAL DISPLACEMENT DESIRED POSITION PRESENT DIRECTION g EMPRESENT POSITION KDESIRED DIRECTION (2)TEMPORAL DISPLACEMENT / DESIRED TIMING?x PRESENT TIMING t a 4. RISE BY OTHER ENERGY (OR FORCE) [EXCESS] RéISE A DESIRED RELATIONSHIP RISE DESIRED RELATIONSHIP L RELATIONSHIP RELATIONSHIP WITH OTHER ENERGY WITH OTHER ENERGY 5: CONSUMPTION OF ENERGY (OR FORCE) FOR OTHER ACTION [INSUFFICIENCY] \/ DESIRED RELATIONSHIP A DESIRED RELATIONSHIP /<,\ CONSUMPTION \, CONSUMPTION FOR OTHER ACTION FOR OTHER ACTION
9 Patent Application Publication Nov. 23, 2006 Sheet 8 0f 37 US 2006/ A1 FIG.8B TECHNICAL PROBLEM CLASSIFICATION SYMBOL LIST (No.2) B: INSTABILITY IN FUNCTION ACHIEVEMENT LEVEL 1. FLUCTUATIONS (VIBRATION, PERIODICAL DISTRIBUTION, VORTEX, AND BIAS IN DISTRIBUTION) i: PERIODICAL FLUCTUATIONS (VIBRATION, PERIODICAL DISTRIBUTION) MA (1) SPATIAL PERIODICITY(SHAPE AND THE LIKE) (2) TEMPORAL PERIODICITY ii:nonperiodical FLUCTUATIONS (VORTEX, TURBULANCE, BIAS IN DISTRIBUTION) (I) SPATIAL NONPERIODICITY (SHAPE AND THE LIKE) (2) TEMPORAL NONPERIODICITY 2. OVERLAP OF NONSTATIONARY ACTION D: OCCURRENCE OF UNDESIRABLE EFFECT (HARMFUL FUNCTION)
10 lication Publication Nov. 23, 2006 Sheet 9 0f FIG.9A 5 f FIG.9B 42 x W 5 WW {42 \ \\\\\
11 Patent Application Publication Nov. 23, 2006 Sheet 10 0f 37 US 2006/ A1 FIG. 10 EXPOSURE TO IMAGE FORMATION PROCESS i : LASER LIGHT REACHES SURFACE OF - PHOTOSENSITIVE MATERIAL ii ; OPTICAL TRANSMISSION AND ABSORPTION HEAT G ENERATION iv: HEAT TRANSFER v : SOLUBILIZATION OF RESIN WW OLIGHT INTENSITY
12 Patent Application Publication Nov. 23, 2006 Sheet 11 0f 37 US 2006/ A1 FIG.12 PHENOMENON-ATTRIBUTE ANALYSIS IN SUB-PROCESS ii A: SUB-PROCESS ii: OPTICAL TRANSMISSION AND ABSORPTION B: FUNCTION (ACTION) TRANSMIT INCIDENT LIGHT TO ALUMINUM INTERFACE IN PHOTOSENSITIVE LAYER ' z ClzDESCRIPTION (1) INCIDENT LIGHT VERTICALLY ENTERs % OF PHENOMENON - WHILE BEING ABSORBED BY IR DYE I-T-I (2) PART OF LIGHT SCATTERS AT INTERFACE % BETWEEN 'IR DYE AND RESIN % C2:ILLUSTRATION E OF PHENOMENON LASER LIGHTRESIN LAYER E N 0/ [<2 LIGHT INTENSITY z ALUMINUM SUBSTRATE (L8 C3: DRIVING FORCE OPTICAL ENERGY 0' C4: ESTIMATED EVIDENCE RESULT OF SIMULATION LIGHT DOES NOT REACH LOWERMOST LAYER D:QUESTIONS OR DESIRABLE CONCERNS DUE TO /~/ RELATIONSHIP ENERGY CONSUMPTION. EXCESS, INSUFFICIENCY \/ COMSUMPHON TO OTHER ACTION AND/ OR VARIATIONS OF FUNCTION" E : FUNCTION ACHIEVEMENT EVALUATION ITEM F: RELATED ATTRIBUTES Q DIFFUSION TO OTHER ACTION SPATIAL DIFFUSION TRANSMITTANCE THROUGH COATING OF THE SAME THICKNESS SURFACE REFLECTIVITY SURFACE ROUGHNESS (PITS AND PROJECTIONS) OPTICAL TRANSMITTANCE - OPTICAL ABSORPTION SPECTRUM OPTICAL DISPERSIBILITY REFRACTIVE INDEX DISTRIBUTION G: TASKS (I) REDUCE REFLECTIVITY (2) REDUCE OPTICAL DISPERSIBILITY (3) OPTICAL CONVERGENCE
13 Patent Application Publication Nov. 23, 2006 Sheet 12 0f 37 US 2006/ A1 PHENOMENON ANALYsIs FLOW CHART 1. WHAT Is ENERGY (OR FORCE) To FOCUS ON?. 1 3 CASE ANALYSIS ( 1 :OWICAL TRANSMITTANCE AND ABSORPTION) -» 1. LIGHT (ENERGY) I 2. WHAT (PHENOMENON) IS 2. REFLECTION, SCATTERING OCCURRING WITH REGARD TO» TRANSMITTANCE, ABSORPTION ABOVE ENERGY (OR FORCE) IN AND REFRACTION (OF LIGHT) THIs sue-process? - l 3. WHAT (FUNCTION) Is DESIRABLY 3. TRANSFER OPTICAL ENERGY TO ACHIEVED IN THIs SUBPROCESS? _ LOWERMOST LAYER OF PHOTOSENSITIVE LAYER 4. WHAT ARE LIMITING CONDITIONS 4. EXPOSUREzLUMINOUS ENERGY OF FUNCTION IN THIS SUB-PROCESS.7 OOITLI OR LESS :EXPOSURE TIME IIIEISEC OR LESS PHOTOSENSITIVE LAYER: THICKNESS AA u m OR MORE ' 5. SPACE AND TIIME FOR 5. SPACE:LOWERMOST LAYER OF EVALUATING ACHIEVEMENT OF PHOTOSENSITIVE LAYER ABOVE FUNCTION? TIME: IMMEDIATELY AFTER INCIDENCE ~ WRITING TIME (El 11 s) 6. DESIRABLE ACHIEVEMENT " 6. OO% OR MORE OF INCIDENT LEVEL IN ABOVE SPACE AND TIME? ENERGY I I 7. EXTENT OF SPATIAL AND 7. VARIATIONS WITHIN +40, O% TEMPORAL DISTRIBUTION OF REQUIRED FUNCTION ACHIEVEMENT? l 8. OPTICAL ENERGY IS ZERO IN 8. WHAT IS PRESENT PROBLEM? - > LOWERMOST LAYER 9. WHICH CATEGORY IN CLASSIFICATION SYSTEM LIST CORRESPONDS TO THE PROBLEM? 9. B : INSUFFICIENT FUNCTION >~ ACHIEVEMENT LEVEL (3) \ CONSUMPTION OF ENERGY (OR FORCE) TO OTHER ACTION 10.ABSORPI ION (REFLECTION, 10. WHAT Is IMPORTANT PHENOMENON IN THIs SUB-PROCESS? ' SCATTERING AND REFRACTION (AND REASON?) ARE NEGLIGIELE BASED ON PREVIOUS DATA))
14 Patent Application Publication Nov. 23, 2006 Sheet 13 0f 37 US 2006/ A1 FIG.14 ( START ) SPECIFY MAIN CAUSE OF TECHNICAL PROBLEM "\/ Scl DETERMINE WHICH ITEM IN TECHNICAL PROBLEM /-\/ S62 CLASSIFICATION SYSTEM LIST THE MAIN CAUSE BELONGS WRITE OUT ENERGY AND/ OR MOVEMENT OF SUBSTANCE TO REDUCE VALUE IN CORRESPONDING ITEM OF TECHNICAL PROBLEM CLASSIFICATION SYSTEM LIST TO ZERO (ILLUSTRATION AND DESCRIPTION) "\/ S03 LIST MATERIALS AND/ OR ATTRIBUTES (SHAPES AND/ OR PHYSICAL PROPERTIES) RELATED TO MAIN CAUSE AND "\/ 5C4 IDEAL STATE CONSIDER MEANS FOR REALIZING IDEAL, STATE USING LISTED ATTRIBUTES END
15 Patent Application Publication Nov. 23, 2006 Sheet 14 0f 37 US 2006/ A1 FIG.15 PHENOMENON-ATTRIBUTE ANALYSIS OF CHANGE IN SUB-PROCESS AtSUB-PROCESS BzFUNCTION INFLUENCE OF SUB-PROCESS ON (ACTION) OBJECT LAYER OR ON OBJECT MATERIAL CIzDESCRIPTION DESCRIPTION OF ESTIMATED CHANGE IN OF PHENOMENON SUB-PROCESS AND OF PHENOMENON a Z - CAUSING THE CHANGE E g C2:ILLUSTRATION ILLUSTRATION OF ESTIMATED CHANGE < m 0}? PHENOMENON IN SUB-PROCESS AND OF PHENOMENON ; 2 CAUSING THE CHANGE a CZD C3 : DRIVING ' ENERGY OR FORCE CAUSING THE ABOVE 11-1 % FORCE PHENOMENON U 0* C4:ESTIMATED INFORMATION AS BASIS FOR ESTIMATING EVIDENCE CHANGE AND PHENOMENON IN SUB-PROCESS. UNCLEAR POINTS AND QUALITY OR CONCERNS OF ESTIMAGED CHANGE IN SUB-PROCESS AND OF PHENOMENON E: FUNCTION ITEMS FOR EVALUATING FUNCTION ACHIEVEMENT ACHIEVEMENT EVALUATION ITEMS Z 52 H1: DESCRIPTION OF DESCRIPTION OF IDEAL PHENOMENON E a IDEAL STATE 2 :e E 5 H2: ILLUSTRATION OF I % IDEAL STATE ILLUSTRATION OF IDEAL PHENOMENON F: RELATED DESIGN PARAMETERS FOR OBTAINING ATTRIBUTE NECESSARY PRODUCT FUNCTION BASED ON THE ABOVE CHANGE G: TASK NECESSARY ACTION FOR CLARIFYING DESIGN PARAMETERS AND CONCERNS
16 Patent Application Publication Nov. 23, 2006 Sheet 15 0f 37 US 2006/ A1 FIG.16A PHENOMENON-ATTRIBUTE ANALYSIS IN SUB-PROCESS iv (NO.1) A: SUB-PROCESS iv: HEAT TRANSFER B; FUNCTION TRANSFER HEAT TO ALUMINUM INTERFACE (ACTION) THROUGH RESIN LAYER C. ESTIMATED PI-IENOMENON ' C1: DESCRIPTION (1) HEAT IS RADIATED CONCURRENTLY with HEAT 0F GENERATION AT PHOTOSENSITIVE LAYER SURFACE, AND PHENOMENON MOST OF HEAT Is RELEASED TO AIR. (2) HEAT GENERATION IN PROXIMITY OF RESIN LAYER SURFACE IS DIFFUSED IN ALL DIMENSIONS IN 3D THROUGH RESIN LAYER. (3) HEAT DIFFUSED IN LATERAL DIRECTION IS ABSORBED INTO RESIN AND ATTENUATED NATURALLY. (4) HEAT DIFFUSED IN VERTICAL DIRECTION IS ABSORBED INTO RESIN ON ITS WAY; HOWEVER, HEAT IS TRANSFERRED TO ALUMINUM UPON REACHING ALUMINUM INTERFACE SO THAT TEMPERATURE DECREASES SUDDENLY. C2; ILLUSTRATION SPATIAL ANALYSIS] TEMPORAL ANALYsI? 0F UEEERATION a PROBLEM v HEAT GENERATION PHENOMENON k.5: PROBLEM A0 0 7 SURFACE / SUBSTRATE \[\/ SURFACE PHOTOSENSITIVE SUBSTRAT U I1 3 O I1 S LAYER SURFACE SURFACE ISOLUBILIZATION LIMIT TEMPERATURE] &\ \VRESIN LAYER /////////f\./aluminum SUBSTRATE C3: DRIVING FORCE HEAT ENERGY, TEMPERATURE GRADIENT C4:ESTIMATED EVIDENCE SIMULATION RESULT '\ o DEPTH/ u m EVEN IF IR DYE CONCENTRATION IS CHANGED, TEMPERATURE DROPS BELOW 0 0 AT THE DEPTH OF 1;: m AND BELOW
17 Patent Application Publication Nov. 23, 2006 Sheet 16 0f 37 US 2006/ A1 FIG.16B PHENOMENON-ATTRIBUTE ANALYSIS IN SUB-PROCESS iv (No.2) D: QUESTIONS OR HEAT IS NOT TRANSPERRED TO CONCERNS DUE TO LOWERMOST LAYER EXCESS, * INSUFFICIENCY AND/OR VARIATIONS OP FUNCTION Q DIFFUSION SPATIAL DIFFUSION DEVIATION DESIRABLE IN DIRECTION DIRECTION DESIRABLE / \/ RELATIONSHIP \' CONSUMPTION TO OTHER ACTION ENERGY CONSUMPTION TO OTHER ACTION ' EIEUNCTION (1) DEPTH AT WHICH TEMPERATURE ACHIEVEMENT REACHES THRESHOLD VALUE IEEFVEQL UATION (2)SURPACE TEMPERATURE OF ALUMINUM SUBSTRATE
18 Patent Application Publication Nov. 23, 2006 Sheet 17 0f 37 H: IDEAL STATE STATE HI: DESCRIPTION OF IDEAL FIG. 17A PHENOMENON-ATTRIBUTE ANALYSIS IN SUB-PROCESS iv (No.3) US 2006/ A1 [ENERGY DIFFUSION (LATERAL) >0] (1) PREVENT LATERAL ENERGY DIFFUSION > BLOCK DIFFUSION IN LATERAL DIRECTION OF HEATING ELEMENT [DEVIATION IN ENERGY DIRECTION >O] (2) HEAT IS TRANSFERRED ONLY IN LOWER DIRECTION * HEAT TRANSFER MEDIUM MOVES [ENERGY CONSUMPTION TO OTHER ACTIONHO] (4) USE ENERGY NOT ABSORBED BY ALUMINUM (CLEAVE HYDROGEN BOND) TRANSFER ENERGY OTHER THAN HEAT TO LOWER DIRECTION IDEVIATION IN ENERGY DIRECTION >0I (3) HEATING ELEMENT MOVES DOWNWARD (IN COMBINATION WITH OPTICAL TRANSMISSION) H2: ILLUSTRATION OF IDEAL STATE SPATIAL ANALYSIS HEAT GENERATION PROBLEM IDEAL STA FE PHOTOSENSITIVE SUBSTRATE LAYER SURFACE SURFACE \ Z/KZ:/ k\\ // /////// HEAT GENERATED BY LIGHT: O u s TEMPORAL ANALYSIS HEAT GENERATIO MARK PROBLEM PHOTOSENSITIVE LAYER SURFACE M SUBSTRATE / & SURFACE U u s O u s ( RESIN LAYER N2 \NQ VSAK //// /// //7//// // 00 II s LATER I R ALUMINUM OOO u s LATE SUBSTRATE
19 Patent Application Publication Nov. 23, 2006 Sheet 18 0f 37 FIG.17B PHENOMENON-ATTRIBUTE ANALYSIS IN SUB-PROCESS iv (No.4) US 2006/ A1 RELATED F ATTRIBUTES G: TASKS THERMAL CONDUCTIVITY OF RESIN, THERMAL SHRINKAGE OF RESIN, RESIN Tg, HYDROGEN BOND CLEAVAGE PROPERTY, IR DYE COLOR FADING PROPERTY, PHOTOCHEMICAL CONVERSION PROPERTY, IR DYE CONVERSION EFFICIENCY, IR DYE SPECTRUM SENSITIVITY CHARACTERISTIC, IR DYE CONCENTRATION, IR DYE DISTRIBUTION, THERMAL CONDUCTIVITY OF ALUMINUM, SURFACE ROUGHNESS OF ALUMINUM SUBSTRATE {ENERGY DIFFUSION (LATERAL) H0] (1) HEAT SHRINKING REsIN > AIR LAYER BARRIER AROUND IMAGE AREA IDEVIATION IN ENERGY DIRECTION->0] (2) LOW Tg RESIN: MELTING CONDENSATION HEAT TRANSFER (3) COLOR FADABLE IR DYE [CONSUMPTION OF ENERGY TO OTHER ACTION '>O] (4) INTRODUCE ACID RELEASING MATERIAL EXCITED BY LIGHT (5) IR DYE CONCENTRATION DISTRIBUTION, SEA-ISLAND STRUCTRUE AND THE LIKE. (6) SEARCH FOR BONDING METHOD OTHER THAN HYDROGEN BOND, CLEAVABLE BY CHEMICAL ENERGY
20 Patent Application Publication Nov. 23, 2006 Sheet 19 0f 37 FIG.18 US 2006/ A1 _ FUNCTION F OBJECT O1 ATTRIBUTE A1 ATTRIBUTE A2 OBJECT O2
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