complete support global rev 1.0
DESCRIPTION
Complete Support Global REV 1.0. 1. Complete Support Global REV 1.0. ГРУППА КОМПАНИЙ INGLASS. Основанная в 1987 году по названием Incos компания INglass расположена в г. Сан Поло ди Пьяве (Италия). Компания занимается разработкой и изготовлением пресс-форм для литья пластмасс. - PowerPoint PPT PresentationTRANSCRIPT
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*Complete Support Global REV 1.0Complete Support Global REV 1.0
-
*Complete Support Global REV 1.0 INGLASS 1987 Incos INglass . (). - . 1991 - ( ). 2001 HRSFlow, . 2004 - , . ( - ). 2006 (M.O.M). 2007 , , -, , (Selective Laser Melting).
-
*Complete Support Global REV 1.0 Inglass-HRSflow : 300 . Inglass-HRSflow ( - . ). . INGLASS-HRSFLOW
-
*Complete Support Global REV 1.0 INGLASS-HRSFLOW 2009 HRSFlow INGLASS -
Grafico1
000165
000174
30604050
40737266
477875109
21520092009130
INGLASS / HRSFLOW Italy
INGLASS Italy
HRSFLOW Italy
FOREIGN EMPLOYEES
INGLASS EMPLOYEES
Grafico4
000165
000174
30604050
40737266
44
INGLASS / HRSFLOW Italy
INGLASS Italy
HRSFLOW Italy
FOREIGN EMPLOYEES
DIPENDENTI INGLASS
Foglio1
EUROPA26.2
USA CANADA18
JAPAN/KOREA37.2
CINA10
OTHER8.6
100
Foglio1
0
0
0
0
0
Foglio2
EUROPA17
USA CANADA3.7
JAPAN/KOREA0
CINA1.3
OTHER0
Foglio2
17
3.7
0
1.3
0
Foglio3
EUROPA60
USA26
ASIA10
BRASILE4
100
Foglio3
60
26
10
4
Foglio4
EUROPA80
USA9
ASIA10
BRASILE1
100
Foglio4
80
9
10
1
DIPENDENTI
Produzione32
Impiegati60
Dirigenti/quadri5
DIPENDENTI
32
60
5
EBIT
2004
20052870
20062138
200420052006
211928702138
EBIT
2004
20052870
20062138
Foglio6
2870
2138
Foglio7
20042119
20052870
20062138
2119
2870
2138
2003200420052006
4,1785,0499,33711,418
2003
2004
2005
2006
4178
5049
9337
11418
200420052006200720082009
INGLASS / HRSFLOW Italy00304047215
INGLASS Italy00607378
HRSFLOW Italy00407275
FOREIGN EMPLOYEES1651745066109130
TOTAL165174180251
0000
0000
0000
0000
0000
2004
2005
2006
2007
00000
00000
00000
00000
INGLASS / HRSFLOW Italy
INGLASS Italy
HRSFLOW Italy
FOREIGN EMPLOYEES
TOTAL
0
0
0
165
00000
00000
00000
00000
INGLASS / HRSFLOW Italy
INGLASS Italy
HRSFLOW Italy
FOREIGN EMPLOYEES
TOTAL
0000
0000
0000
0000
0000
INGLASS / HRSFLOW Italy
INGLASS Italy
HRSFLOW Italy
FOREIGN EMPLOYEES
DIPENDENTI INGLASS
Grafico4
0.65
0.35
Foglio1
HRSFLOWINGLASS
50%65%35%
50%
Foglio1
Foglio2
Foglio3
Grafico1
1410
1615
1717
1923
1929
1935
INGLASS
HRSFLOW
YEARS
Foglio1
20012002200320042005
Incos Spa17,522,95612,233,493518,000318,000
Incos Srl8,716,20520,167,08023,000,000
INCOS17,522,95621,349,69821,192,32624,138,39731
2001200220032004
AS2,927,4180.00.00.0
2001200220032004
INCOS SOLO STAMPI15,362,95617,549,69815,185,08014,318,000
20012002200320042005
CAMERE CALDE2,927,4183,800,0006,007,2469,820,39713,974,225
20012002200320042005200620072008Budget 2009
INGLASS15,362,95617,549,69815,185,080141617191919
INGLASS GLASING
HRS2,160,0003,800,0006,007,246101517232935
17,522,95621,349,69821,192,32624313423
Foglio2
Foglio2
1996414
3931123
7672435
9323469
10402891
12936756
11770013
13262549
17522956
21349698
21192326
24138397
27474225
INCOS
Foglio3
1278799
1495720
2199995
1949572
2249863
2962070
3139208
2842174
2927418
0
0
0
AS
15362956
17549698
15185080
14318000
INCOS SOLO STAMPI
2927418
3800000
6007246
9820397
13974225
CAMERE CALDE
1536295620012160000
1754969820023800000
1518508020036007246
14200410
16200515
INGLASS
INGLASS GLASING
HRS
MBD0004FCE0.xls
Grafico1
11770013
13262549
153629562160000
175496983800000
151850806007246
143180009820397
15500000250000012000000
15000000500000018000000
INCOS TOOLING
INGLASS TECHNOLOGY
HRS FLOW
YEARS 1999-2006
Foglio1
1993199419951996199719981999200020012002200320042005
Incos Spa1,996,4143,931,1237,672,4359,323,46910,402,89112,936,75611,770,01313,262,54917,522,95612,233,493518,000318,000
Incos Srl8,716,20520,167,08023,000,000
INCOS1,996,4143,931,1237,672,4359,323,46910,402,89112,936,75611,770,01313,262,54917,522,95621,349,69821,192,32624,138,39727,500,000
199319941995199619971998199920002001200220032004
AS1,278,7991,495,7202,199,9951,949,5722,249,8632,962,0703,139,2082,842,1742,927,4180.00.00.0
199319941995199619971998199920002001200220032004
INCOS SOLO STAMPI1,996,4143,931,1237,672,4359,323,46910,402,89112,936,75611,770,01313,262,54915,362,95617,549,69815,185,08014,318,000
1993199419951996199719981999200020012002200320042005
CAMERE CALDE1,278,7991,495,7202,199,9951,949,5722,249,8632,962,0703,139,2082,842,1742,927,4183,800,0006,007,2469,820,39713,974,225
19931994199519961997199819992000200120022003200420052006
INCOS SOLO STAMPI1,996,4143,931,1237,672,4359,323,46910,402,89112,936,75611,770,01313,262,54915,362,95617,549,69815,185,08014,318,00015,500,00015,000,000
INCOS STAMPI GLASING2,500,0005,000,000
INCOS SOLO CC2,160,0003,800,0006,007,2469,820,39712,000,00018,000,000
Foglio2
Foglio2
1996414
3931123
7672435
9323469
10402891
12936756
11770013
13262549
17522956
21349698
21192326
24138397
27474225
INCOS
Foglio3
1278799
1495720
2199995
1949572
2249863
2962070
3139208
2842174
2927418
0
0
0
AS
1996414
3931123
7672435
9323469
10402891
12936756
11770013
13262549
15362956
17549698
15185080
14318000
INCOS SOLO STAMPI
1278799
1495720
2199995
1949572
2249863
2962070
3139208
2842174
2927418
3800000
6007246
9820397
13974225
CAMERE CALDE
199641419931993
393112319941994
767243519951995
932346919961996
1040289119971997
1293675619981998
1177001319991999
1326254920002000
1536295620012160000
1754969820023800000
1518508020036007246
1431800020049820397
15500000250000012000000
INCOS SOLO STAMPI
INCOS STAMPI GLASING
INCOS SOLO CC
11770013
13262549
153629562160000
175496983800000
151850806007246
143180009820397
15500000250000012000000
15000000500000018000000
INCOS TOOLING
INGLASS TECHNOLOGY
HRS FLOW
YEARS 1999-2006
-
*Complete Support Global REV 1.0
. / Inglass-HRSflow :- - - Inglass-HRSFlow : HRS INGLASS-HRSFLOW : -
-
*Complete Support Global REV 1.0
-
*Complete Support Global REV 1.0
-
*Complete Support Global REV 1.0
-
*Complete Support Global REV 1.0
-
Complete Support Global REV 1.0
Complete Support Global REV 1.0
-
Complete Support Global REV 1.0
Complete Support Global REV 1.0
-
*Complete Support Global REV 1.0 INGLASS - HRSFlow - - + -+ HRSFlow + INGLASS GLAZING ( ) + - + , , CO2 + , , 2
-
*Complete Support Global REV 1.0 . Inglass-HRSflow : (MFR , MFI , DSC , HDT , VST ); - ; - . . . . .
-
*Complete Support Global REV 1.0
:
- - , .
- - ( , ..).
- .
- Mold flow .
-
*Complete Support Global REV 1.0 - : 70% Deformation reduction
-
*Complete Support Global REV 1.0 , . .
-
*Complete Support Global REV 1.0 PI (MoldFlow Plastics Insight)
- - - - - - - -
-
*Complete Support Global REV 1.0 : 60-75% (/ )
( Moldflow ) , - .
-
*Complete Support Global REV 1.0 - ( )- - (SLM) - - ISO PIPE MoldMax 11.8
-
*Complete Support Global REV 1.0 , SLM -.
-
*Complete Support Global REV 1.0 Inglass-HRSflow (WIT): 1,5 ()(: , ). . . (Water Injection Technology) , , , ( ).WIT
-
*Complete Support Global REV 1.01. 2. 3. 4. 5. : ; (2 ); (, ), ;- : - :
-
*Complete Support Global REV 1.0: 30-50% -
HRSflow-Inglass -: -, MuCell. MuCell (SCF ) ,- SCF - SCF MuCell
-
*Complete Support Global REV 1.0 .
- - INGLASS-HRSFlow:170 180 800 2K MuCell1200 4K 2300 2K
-
*Complete Support Global REV 1.0- Inglass-HRS - .
-
*Complete Support Global REV 1.01500 700 ... -
-
*Complete Support Global REV 1.0
-
*Complete Support Global REV 1.0M.O.M. ELD HRCU - ( ) - STC
-
*Complete Support Global REV 1.0- , :-
-
*Complete Support Global REV 1.0080507Ford motor company :
-
*Complete Support Global REV 1.0 Moldflow: : -: - MOLD FLOW
-
*Complete Support Global REV 1.0 - 6,81,8 MOLD FLOW
-
MOLDFLOW?Complete Support Global REV 1.0 : :
Complete Support Global REV 1.0
Standard
/ () ()
A1PA + GFKilo3.50000.60002.1000
MATERIAL n2
2.1000
1- ()- - 1 (/) - 1 ()
A1111.21.2
1- ()- - 1 - - () - 1 ()
A1110.50.50.25
20.00%0.71
/ ()4.2600
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
Part cost analysis example using co - injection
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.40001.4000
A2RECYCLED MATERIALKilo1.70000.20000.3400
1.7400
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
B1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
B2110.50.50.25
SCRAP
2.00%0.0638
Raw Material Processing Total [Euro]3.2538
DELTA WITH STANDARD-1.0062-24%
Cost saving on 500.000 parts []-503,100
utilizzo di 33% mat riciclato
Cooling
Comparison with the same part realized with cooling optimization . Cycle time saving :20%
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.30000.3000
A1MATERIAL n 2Kilo0.00000.00000.0000
0.3000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.811.20.96
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.7510.50.50.1875
SCRAP
2.00%0.02895
Raw Material Processing Total [Euro]1.4765-65%
DELTA WITH STANDARD-2.7836-65%
Cost saving on 500.000 parts []-1,391,775
riduzione tempo ciclo 20%
Standard
Hereunder an example of a standard part cost analysis
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.60002.1000
MATERIAL n2
2.1000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A1110.50.50.25
SCRAP
20.00%0.71
Raw Material Processing Total [Euro]4.2600
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
Mold Flow
/ () ()
A1PA + GFKilo3.50000.60002.1000
A2RECYCLED MATERIALKilo
2.1000
- ()- - 1 (/) - - 1 ()
B1111.21.2
C- ()- - 1 - - () - 1 ()
B2110.50.50.25
2.00%0.071
/ ()3.6210
-0.6390-15%
500000 ()-319,500
utilizzo di 33% mat riciclato
Cooling
Comparison with the same part realized with cooling optimization . Cycle time saving :20%
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.30000.3000
A1MATERIAL n 2Kilo0.00000.00000.0000
0.3000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.811.20.96
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.7510.50.50.1875
SCRAP
2.00%0.02895
Raw Material Processing Total [Euro]1.4765-65%
DELTA WITH STANDARD-2.7836-65%
Cost saving on 500.000 parts []-1,391,775
riduzione tempo ciclo 20%
-
*Complete Support Global REV 1.0
Mold Flow EFD : Mold Flow
SLM: SLM
-: -
-
*Complete Support Global REV 1.0 ( SLM)
-
Complete Support Global REV 1.0: :
Complete Support Global REV 1.0
Standard
Hereunder an example of a standard part cost analysis
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.40000.4000
MATERIAL n2
0.4000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A1110.50.50.25
SCRAP
5.00%0.0925
Raw Material Processing Total [Euro]1.9425
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
Part cost analysis example using co - injection
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.40001.4000
A2RECYCLED MATERIALKilo1.70000.20000.3400
1.7400
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
B1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
B2110.50.50.25
SCRAP
2.00%0.0638
Raw Material Processing Total [Euro]3.2538
DELTA WITH STANDARD1.311368%
Cost saving on 500.000 parts []655,650
utilizzo di 33% mat riciclato
Cooling
: : 30%
/ () ()
A1PPKilo1.00000.40000.4000
A1 2
0.4000
- ())- - 1 (/) - - 1 ()
A10.711.20.84
- ()- - 1 - - () - 1 ()
A10.7510.50.50.1875
1.00%0.014275
/ ()1.4418-26%
-0,5007-0.5007-26%
500000 ()-250,363
Standard
/ () ()
A1PPKilo1.00000.40000.4000
2
0.4000
- ())- - 1 (/) - - 1 ()
A1111.21.2
()- - 1 - - () - 1 ()
A1110.50.50.25
5.00%0.0925
/ ()1.9425
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
Part cost analysis example using co - injection
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.40001.4000
A2RECYCLED MATERIALKilo1.70000.20000.3400
1.7400
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
B1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
B2110.50.50.25
SCRAP
2.00%0.0638
Raw Material Processing Total [Euro]3.2538
DELTA WITH STANDARD1.311368%
Cost saving on 500.000 parts []655,650
utilizzo di 33% mat riciclato
Cooling
Comparison with the same part realized with cooling optimization . Cycle time saving :20%
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.30000.3000
A1MATERIAL n 2Kilo0.00000.00000.0000
0.3000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.811.20.96
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.7510.50.50.1875
SCRAP
2.00%0.02895
Raw Material Processing Total [Euro]1.4765-24%
DELTA WITH STANDARD-0.4661-24%
Cost saving on 500.000 parts []-233,025
riduzione tempo ciclo 20%
-
*Complete Support Global REV 1.01. 2. 3. 4. 5. . . HRSFlow
-
*Complete Support Global REV 1.06-
-
*Complete Support Global REV 1.0: :
Standard
/ () ()
A1ABS+PC GF10%Kr3.50000.60002.1000
2
2.1000
- ()- 1 (/) 1 ()
A1111.21.2
- ()- - 1 - - () - 1 ()
A1110.50.50.25
2.00%0.071
/ ()3.6210
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
Part cost analysis example using co - injection
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.40001.4000
A2RECYCLED MATERIALKilo1.70000.20000.3400
1.7400
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
B1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
B2110.50.50.25
SCRAP
2.00%0.0638
Raw Material Processing Total [Euro]3.2538
DELTA WITH STANDARD-0.3672-10%
Cost saving on 500.000 parts []-183,600
utilizzo di 33% mat riciclato
Cooling
Comparison with the same part realized with cooling optimization . Cycle time saving :20%
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.30000.3000
A1MATERIAL n 2Kilo0.00000.00000.0000
0.3000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.811.20.96
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.7510.50.50.1875
SCRAP
2.00%0.02895
Raw Material Processing Total [Euro]1.4765-59%
DELTA WITH STANDARD-2.1446-59%
Cost saving on 500.000 parts []-1,072,275
riduzione tempo ciclo 20%
Standard
Hereunder an example of a standard part cost analysis
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.60002.1000
MATERIAL n2
2.1000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A1110.50.50.25
SCRAP
2.00%0.071
Raw Material Processing Total [Euro]3.6210
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
/ () ()
A1ABS+PC GF10%Kr3.50000.40001.4000
A2 Kr1.00000.20000.2000
1.6000
- ()- - 1 (/) - - 1 ()
B1111.21.2
- ()- - 1 - - () - 1 ()
B2110.50.50.25
2.00%0.061
/ ()3.1110
-0.5100-14%
500000 ()-255,000
33% recycled material
Cooling
Comparison with the same part realized with cooling optimization . Cycle time saving :20%
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.30000.3000
A1MATERIAL n 2Kilo0.00000.00000.0000
0.3000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.811.20.96
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.7510.50.50.1875
SCRAP
2.00%0.02895
Raw Material Processing Total [Euro]1.4765-59%
DELTA WITH STANDARD-2.1446-59%
Cost saving on 500.000 parts []-1,072,275
riduzione tempo ciclo 20%
-
*Complete Support Global REV 1.0 MuCell . Trexel .
MuCell () , . MUCELL
-
MUCELLComplete Support Global REV 1.0: :
Complete Support Global REV 1.0
Standard
/ () ()
A1ABS+PC GF10%Kilo3.50000.60002.1000
MATERIAL n2
2.1000
- ()- 1 (/) 1 ()
A1111.21.2
- ()- - 1 - - () - 1 ()
A1110.50.50.25
2.00%0.071
/ ()3.6210
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
Part cost analysis example using co - injection
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.40001.4000
A2RECYCLED MATERIALKilo1.70000.20000.3400
1.7400
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
B1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
B2110.50.50.25
SCRAP
2.00%0.0638
Raw Material Processing Total [Euro]3.2538
DELTA WITH STANDARD-0.3672-10%
Cost saving on 500.000 parts []-183,600
utilizzo di 33% mat riciclato
Cooling
Comparison with the same part realized with cooling optimization . Cycle time saving :20%
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.30000.3000
A1MATERIAL n 2Kilo0.00000.00000.0000
0.3000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.811.20.96
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.7510.50.50.1875
SCRAP
2.00%0.02895
Raw Material Processing Total [Euro]1.4765-59%
DELTA WITH STANDARD-2.1446-59%
Cost saving on 500.000 parts []-1,072,275
riduzione tempo ciclo 20%
Standard
Hereunder an example of a standard part cost analysis
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo3.50000.60002.1000
MATERIAL n2
2.1000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A1111.21.2
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A1110.50.50.25
SCRAP
2.00%0.071
Raw Material Processing Total [Euro]3.6210
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
Coinjection
MuCell
/ () ()
A1ABS+PC GF10%Kr3.50000.40001.4000
A2RECYCLED MATERIALKilo
1.4000
- ()- 1 (/) 1 ()
B10.911.21.08
- ()- - 1 - - () - 1 ()
B2110.50.50.25
2.00%0.0546
/ ()2.7846
-0.8364-23%
Cost saving on 500.000 parts []-418,200
utilizzo di 33% mat riciclato
Cooling
Comparison with the same part realized with cooling optimization . Cycle time saving :20%
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1ABS+PC GF10%Kilo1.00000.30000.3000
A1MATERIAL n 2Kilo0.00000.00000.0000
0.3000
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.811.20.96
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.7510.50.50.1875
SCRAP
2.00%0.02895
Raw Material Processing Total [Euro]1.4765-59%
DELTA WITH STANDARD-2.1446-59%
Cost saving on 500.000 parts []-1,072,275
riduzione tempo ciclo 20%
-
*Complete Support Global REV 1.0 : ( ) / (intranet/internet)- - M.O.M.
-
*Complete Support Global REV 1.0 : PC CHMSL: + : (M.O.M.) (M.O.M.) ( Diamond) - HRSflow /
-
...Complete Support Global REV 1.0: MOM
Complete Support Global REV 1.0
Standard
/ () ()
A1PCKilo3.75000.50001.8750
1.8750
1- ()- - 1 (/) - - 1 ()
A10.8521.20.51
OVERALL DIRECT LABOR COST
1- ()- - 1 - - () - 1 ()
A10.8520.250.30.031875
50.00%1.2084375
/ ()3.6253
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
MOM
Part cost analysis example using M.O.M.
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1PCKilo3.75000.50001.8750
1.8750
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.8521.20.51
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.8520.250.30.031875
SCRAP
5.00%0.12084375
Raw Material Processing Total [Euro]2.5377
DELTA WITH STANDARD-1.0876-30%
Cost saving on 500.000 parts []-543,797
Scrap reduction: 50% --> 5%
Standard
Example of a standard part cost analysis
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1PCKilo3.75000.50001.8750
1.8750
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.8521.20.51
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.8520.250.30.031875
SCRAP
50.00%1.2084375
Raw Material Processing Total [Euro]3.6253
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
MOM
...
/ () ()
A1PCKilo3.75000.50001.8750
1.8750
- ()- 1 (/) 1 ()
A10.8521.20.51
- ()- - 1 - - () - 1 ()
A10.8520.250.30.031875
5.00%0.12084375
/ ()2.5377
-1.0876-30%
500000 ()-543,797
Scrap reduction: 50% --> 5%
Standard
Example of a standard part cost analysis
RAW MATERIAL
Ref.MATERIAL DESCRIPTIONUNIT OF MEASURECOST/UNIT OF MEASURE [Euro]GROSS USAGE PER UNITRAW MATERIAL TOTAL [Euro]
A1PCKilo3.75000.50001.8750
1.8750
RAW MATERIAL PROCESSING
MACHINE COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLEMACHINE MINUTE RATE (Cost) [Euro]MACHINE SIZE & TYPEMACHINE COSTS PER OPERATION [Euro]
A10.8521.20.51
OVERALL DIRECT LABOR COST
Ref.MACHINE CYCLE TIME (Minutes)PIECES PER CYCLENUMBER OF OPERATORSDIRECT LABOR MINUTE RATE (Cost) [Euro]DIRECT LABOR COSTS PER OPERATION [Euro]
A10.8520.250.30.031875
SCRAP
50.00%1.2084375
Raw Material Processing Total [Euro]3.6253
Automatically calculated:(Machine Cycle Time) X (Machine Minute Cost) / (Pieces per Cycle)
Automatically calculated:(Cycle Time) X ( Number of Operators) X (Direct Labor Minute Rate) / (Pieces per Cycle)
Number of Employes required for the operationExample: 0,5 (1 person operates on 2 machines)
Direct labor hourly rate
Time required to complete a cycle
Time required to complete a cycle
The number of pieces complete in one cycle
The number of pieces complete in one cycle
Total cost of operating the machine, excluding the direct labor, stated as cost
Percentage of scrap
MOM
...
/ () ()
A1PCKilo3.75000.50001.8750
1.8750
- ()- 1 (/) 1 ()
A10.8521.20.51
- ()- - 1 - - () - 1 ()
A10.8520.250.30.031875
5.00%0.12084375
/ ()2.5377
-1.0876-30%
500000 ()-543,797
5 50%
-
*Complete Support Global REV 1.0...
-
*Complete Support Global REV 1.0M.O.M.
-
*Complete Support Global REV 1.0 ?: 8 . HRSFlow M.O.M. , , .
, ( ). , ( , ).
.
-
*Complete Support Global REV 1.0 HRSFlow + - - - -. , . .
-
Complete Support Global REV 1.0 ( - ). 2000 -/, 20,000/10 -. , , 500 - 1,000,000 .
( - ). ,000 .
Complete Support Global REV 1.0
Foglio1
5
- 6010.50.1
- 181320.4
- 27364.50.9
Foglio2
Foglio3
Foglio1
5
- 6010.50.1
- 180210.2
- 27142.50.5
Foglio2
Foglio3
-
INGLASS-HRS: Complete Support Global REV 1.0 1 2 3
Complete Support Global REV 1.0
Foglio1
1:
HRS/Inglass 1 1
1HRS/Inglass 1
Moldflow ( , )HRS/Inglass 1 1
( , MuCell), HRS/Inglass 1 1
HRS/Inglass - / 1 1
-HRS/Inglass 1 1
, , ... HRS/Inglass 1 1
Definizione dei livelli qualitativi e di costo attesiHRS/InglassFIATFIAT
Fornitura di Componenti
Definizione dei fornitoriFIAT
Studio,progettazione e realizzazione degli stampiStampistiHRS/InglassFIAT
Studio,progettazione e realizzazione delle camere caldeHRS/InglassStampistiFIAT
Studio, progettazione e realizzazione di eventuali tasselli di raffreddamentoHRS/InglassStampisti / FIATFIAT
Studio,progettazione e realizzazione degli stampi per applicazioni LightingHRS/InglassFIATFIAT
Purchasing in Cina di eventuali stampi a corollarioHRS/InglassFIATFIAT
Eventuali MOM ed ELDHRS/InglassFIAT
Try outs e Lancio di produzione
Presenza al try out e allavvio della linea di stampaggioHRS/InglassFIATFIAT
Definizione e/o supporto alla definizione del processo di stampaggioHRS/InglassFIATFIAT
Verifica degli standard qualitativi e di costo pre-definitiFIATHRS/InglassFIAT
Eventuale, ulteriore miglioramento di ciclo/qualitFIATHRS/InglassFIAT
Foglio2
Foglio3
-
INGLASS-HRS: Complete Support Global REV 1.0
Complete Support Global REV 1.0
Foglio1
Fornitura di Ingegneria (e coordinamento con gli stampisti):ResponsabileIn coordinamento conSupervisione
studio di tutti i pezzi dellauto per individuare quelli criticiHRS/InglassFIATFIAT
definizione dei materiali plastici.FIATHRS/InglassFIAT
analisi delle criticit e loro ottimizzazione (mediante cooling, mold flow, warpage), quantificazione dei benefici (su qualit e costo)HRS/InglassFIATFIAT
Studio di applicazione di tecnologie differenti (coiniezione? Mucell?) e quantificazione del loro beneficioHRS/InglassFIATFIAT
eventuale codesign del pezzoHRS/InglassStampisti / FIATFIAT
Suggerimento di stampistiHRS/InglassFIATFIAT
Studio delle linee di stampaggio e valutazione di implementazione di MOM o ELD con quantificazione dei beneficiHRS/InglassFIATFIAT
Definizione dei livelli qualitativi e di costo attesiHRS/InglassFIATFIAT
Fornitura di ComponentiResponsabileIn coordinamento conSupervisione
Definizione dei fornitoriFIAT
Studio,progettazione e realizzazione degli stampiStampistiHRS/InglassFIAT
Studio,progettazione e realizzazione delle camere caldeHRS/InglassStampistiFIAT
Studio, progettazione e realizzazione di eventuali tasselli di raffreddamentoHRS/InglassStampisti / FIATFIAT
Studio,progettazione e realizzazione degli stampi per applicazioni LightingHRS/InglassFIATFIAT
Purchasing in Cina di eventuali stampi a corollarioHRS/InglassFIATFIAT
Eventuali MOM ed ELDHRS/InglassFIAT
III: ,
-HRS/Inglass 1 1
HRS/Inglass 1 1
, 1HRS/Inglass 1
/ 1HRS/Inglass 1
Foglio2
Foglio3
Foglio1
Fornitura di Ingegneria (e coordinamento con gli stampisti):ResponsabileIn coordinamento conSupervisione
studio di tutti i pezzi dellauto per individuare quelli criticiHRS/InglassFIATFIAT
definizione dei materiali plastici.FIATHRS/InglassFIAT
analisi delle criticit e loro ottimizzazione (mediante cooling, mold flow, warpage), quantificazione dei benefici (su qualit e costo)HRS/InglassFIATFIAT
Studio di applicazione di tecnologie differenti (coiniezione? Mucell?) e quantificazione del loro beneficioHRS/InglassFIATFIAT
eventuale codesign del pezzoHRS/InglassStampisti / FIATFIAT
Suggerimento di stampistiHRS/InglassFIATFIAT
Studio delle linee di stampaggio e valutazione di implementazione di MOM o ELD con quantificazione dei beneficiHRS/InglassFIATFIAT
Definizione dei livelli qualitativi e di costo attesiHRS/InglassFIATFIAT
II:
1
- -HRS/Inglass 1
HRS/Inglass - 1
HRS/Inglass -/ 1 1
- HRS/Inglass 1 1
- HRS/Inglass 1 1
... (ELD)HRS/Inglass 1
Try outs e Lancio di produzioneResponsabileIn coordinamento conSupervisione
Presenza al try out e allavvio della linea di stampaggioHRS/InglassFIATFIAT
Definizione e/o supporto alla definizione del processo di stampaggioHRS/InglassFIATFIAT
Verifica degli standard qualitativi e di costo pre-definitiFIATHRS/InglassFIAT
Eventuale, ulteriore miglioramento di ciclo/qualitFIATHRS/InglassFIAT
Foglio2
Foglio3
-
*Complete Support Global REV 1.0 100% - - - -
-
*Complete Support Global REV 1.0080507Ford motor company :, HRS-INGLASS
-
*Complete Support Global REV 1.0 ZC1116.0 ZC1116.0 ZC1116.0PORSCHE CAYENNE: - + ()
-
*Complete Support Global REV 1.0 ZC0420.0 ZC0418.0 ZC0419.0AUDI TT: , - +
-
*Complete Support Global REV 1.0MASERATI QUATTROPORTE:
-
*Complete Support Global REV 1.0 H000747.0: : PP: , : , H001304.0: : PP: , : , BMW 6 :
-
*Complete Support Global REV 1.0MERCEDES S: : PP-EPDM : 7: , : , ,
*
-
*Complete Support Global REV 1.0AUDI A6:
-
*Complete Support Global REV 1.0CITROEN BERLINGO:
-
*Complete Support Global REV 1.0
(/): Visteon Sistemas Interiores Espena S.L.: PP : 18: , : E/A, ()
ZC0472.0 CITROEN C4 PICASSO:
-
*Complete Support Global REV 1.0AC100.0AC101.0AUDI A4:
-
*Complete Support Global REV 1.0PORSCHE PANAMERA:
-
*Complete Support Global REV 1.0080507Ford motor company : HRS-INGLASS
-
*Complete Support Global REV 1.0: Vimar: ABS : 2: : , 1P, , :
: Vimar: PC : 1: : , 1P, , :
-
*Complete Support Global REV 1.0: Vimar: PC : 2: : , 1P, :
-
*Complete Support Global REV 1.0: 1171A05 mg-cpm CARD: PC : 16 : : F/2P, , 2 ()
-
*Complete Support Global REV 1.0: AVENUE,JUNIOR,KID BOYKID BOY, Alessi Tupperware , , Alessi Alessi TUPPERWARE-
-
*Complete Support Global REV 1.0
-
*Complete Support Global REV 1.0: : PA6 : 4: : P/ F : : PC : 1 : : 1G,
: - BTICINO: PP : 4 : : 1F,
-
*Complete Support Global REV 1.0: Saroplast : 4: : , 1P
-
*Complete Support Global REV 1.0TECHNICAL SCHEDULE FOR JOB H011911.0 : PHILIPS : PC-ABS : 4: , : , EP,
(LCD TV)
-
*Complete Support Global REV 1.0TECHNICAL SCHEDULE FOR JOB H012415.0 : PHILIPS : O.M.B: PC : 8: : Diamond , MP : 4075 Flare V8 LCD 42
(LCD TV)
-
*Complete Support Global REV 1.0
************************************************Since January 2007 HRS has had an 800 tonnes molding machine with Mucell system to be used for research and development and try outs for clientsMucell = it is a process consisting in the injection of a gas (nitrogen) into the fused polymer, which in its turn expands itself providing the indicated advantages *****************************VENDITORE: BONEZZI PAOLOVICE RESP: CHERINI CATERINA
**VENDITORE: BONEZZI PAOLOVICE RESP: CHERINI CATERINA
******