Steps of Sand Iaculatio Productio Process
Patterns 1. Condita
Resina vel aluminium exemplaria necessaria sunt ad processum ejiciendum viridi arena.Sine exemplaria, productio pro fusurarum impossibilis erit.Aliquando exemplaria lignea parva quantitatis productionis adhiberi possunt, sed ad productionem massam, resina vel aluminium exemplaria aptiores erunt.
2. CUMATIUM Processus
Corona viridis harenae per tres modos typice fieri potuit, inclusa corona manuali, machina fingens et instrumento coronae latae.Corona manualis methodus coronae traditionalis est, sed adhuc exsistit propter capacitatem ad magnas iacturas in inferioribus sumptibus.Modus machinae fingens potest salvare pubem et melius proferre dejectiones qualitates, sed magnas iactationes producere non potest propter quantitatem arcanorum arcanorum limitationem.
3. Ferrum liquatio et fundens
Liquefactio fieri potuit per fornaces inductionis electricae mediae frequentiae, quae conservare potuerunt qualitatem bonam et stabilem comparandis fornacibus traditis.
4. Arena Blasting et Molendum
Postquam arenae viridis e formis harenae ferrea iactamenta evulsa sunt, in proximos gradus transferrentur ad uredinem emissarum vel ad iactum pependentium ad arenas removendas et oxydatum extra partes ejiciendas.Tunc operarii amputabunt, mundabunt et terebunt capita portarum, cristatores, scindentes lineas et acies acutas.
Ulterior processus ut calor curatio, subtilitas machinis et curatio superficiei procedetur si tractus vel finis utentes requirunt.
Aluminium et mixturas altae pressionis mori iactu fundi, pressionis humilis iacturae, gravitatis abiectionis, arenae dejectionis, dejectionis ejiciendi et fundendi;perdidit spumam dejectio.Plerumque aluminium offensionum minorum pondus habent sed superficies implicatas structurales et meliores.
Mitte Aluminium Gradus in diversis signis | |||||||||
AISI | W-stoff | DIN | BS | SS | AFNOR | JIS | UNI | EN | ISO |
A356 | 3.2371 | G-AlSi7Mg | LM25 | 4244 | A-S7G | AC4C | - | 42000 | AlSi7Mg |
- | 3.2373 | G-AlSi9Mg | - | - | - | - | - | - | - |
A360 | 3.2381 | G-AlSi10Mg | LM9 | 4253 | A-S10G | - | - | 43100 | AlSi10Mg |
A413.2 | 3.2581 | G-AlSi12 | LM6 | 4261 | A-S12U | AC3A | - | 44100 | AlSi12 |
A413.0 | 3.2582 | GD-AlSi12 | - | 4247 | - | - | - | - | - |
A413.1 | 3.2583 | G-AlSi12(cu) | LM20 | 4260 | A-S12 | - | - | 47000 | AlSi12(cu) |
- | 3.3561 | G-AlMg5 | LM5 | 4252 | A-SU12 | AC4A | - | 51300 | ALMg6 |
- | 3.5101 | G-MgZn4SE1Zr1 | MAG5 | - | G-Z4TR | - | - | - | - |
- | 3.5103 | MgSE3Zn2Zr1 | MAG6 | - | G-TR3Z2 | - | - | - | - |
- | 3.5106 | G-MgAg3SE2Zr1 | MAG 12 | - | G-Ag22,5 | - | - | - | - |
- | 3.5812 | G-MgAl8Zn1 | MAG1 | - | G-A9 | - | - | - | - |
- | 3.5912 | G-MgAl9Zn1 | MAG7 | - | G-A9Z1 | - | - | - | - |
355.1 | - | G-AlSi5 | LM16 | - | AS4GU | - | - | 45300 | ALSi5Cu1 |
A380 | - | G-AlSi8Cu3 | LM24 | 4250 | A-S9U3 | AC4B | - | 46500 | AlSi9Cu3(Fe)(Zn) |
319 | - | G-AlSi6Cu4 | LM21 | - | A-S5UZ | AC2A | - | 45000 | AlSi6Cu4 |
319.2 | - | G-AlSi6Cu4 | LM22 | - | A-S5U | AC2A | - | 45400 | AlSi5Cu3 |
Quid Aluminium Alloy Jacimus by Sand Iaculatione Processu:
• Aluminium Alloy in Sinis Latin: ZL101, ZL102, ZL104
• Aluminium Alloy in USA Stardard: ASTM A356, ASTM A413, ASTM A360
• Aluminium Alloy ab aliis Starndards mittite: AC3A, AC4A, AC4C, G-AlSi7Mg, G-Al12.
Unified | aluminium consociatio | duritia BHN | Ultima fortitudo distrahens, MPa | cede virtus, MPa | Modulus elasticitatis, GPa | Lassitudo fortitudo, MPa |
A03550 | AA355.0 | 75-105 | 255 | 185 | 70.3 | 69.0 |
A03600 | AA360.0 | 75.0 | 300 | 170 | 71.0 | 138.0 |
A03800 | AA380.0 | 80,0 | 317 | 159 | 71.0 | 138.0 |
A03830 | AA383.0 | 75.0 | 310 | 152 | / | 145.0 |
A03840 | AA384.0 | 85.0 | 331 | 165 | / | 140.0 |
A03900 | AA390.0 | 120.0 | 280 | 240 | 81.2 | 140.0 |
A04130 | AA413.0 | 80,0 | 296 | 145 | 71.0 | 1300 |
A04430 | AA443.0 | 30-60 | 145 | 48.3 | 71.0 | / |
A05180 | AA518.0 | 80,0 | 310 | 193 | 69.0 | 160.0 |
Aluminium Alloy Castings Characteres:
• Dejectio fiendi simile est cum fusura ferri, at proprietates mechanicae relativae significantius decrescunt sicut crassitudo muri augetur.
• Muri crassitudo fusurarum non nimis magna esse debet, et ceterae lineamenta structurae his quae de ferro iaciendi sunt similes
• Leve pondus sed complex sistens
• Per kg aluminii fusurae gratuita dejectiones altiores sunt quam fusurae ferreae et ferreae.
• Si mori processum emissionis produceretur, forma et exemplar multo pluris esset quam alii processus emittentes.Ergo mori aluminium dejectiones aptiores fore ad flatura magnae quantitatis exigentiae.
Typical Chemical Composition of Investment Projecting Aluminium Alloy by North American Specifications | ||||||||||||||
Alloy Grade | Specification | Al | Cu | Si | Zn | Mg | Cr | Fe | Mn | Ti | Ag | Be | Ni | P |
A356-T6 | AMS 4218 | Bal | 0.20 | 6. 5 - 7. 5 | 0.10 | 0.25-0.45 | - | 0.20 | 0.10 | 0.20 | - | -- | - | - |
A 357 | AMS 4219 | Bal | 0.20 | 6. 5 - 7. 5 | 0.10 | 0.40-.70 | - | 0.20 | 0.10 | 0.04-0.20 | - | 0.04-0.07 | - | - |
F 357 | AMS 4289 | Bal | 0.20 | 6.5-7.5 | 0.10 | 0.40-.70 | - | 0.10 | 0.10 | 0.04-0.20 | - | 0.002 | - | - |
E 357 | AMS 4288 | Bal | - | 6.5-7.5 | 0.10 | 0.55-0.60 | - | 0.10 | 0.10 | 0.10-0.20 | - | 0.002 | - | - |
A201 | AMS 4229 | Bal | 4.0-5.0 | 0.05 | - | 0.15-0.35 | - | 0.10 | 0.20-0.34 | 0.15-0.35 | 0.40-1.0 | - | - | - |
C355 | AMS 4215 | Bal | 1.0-1.5 | 4.5-5.5 | 0.10 | 0.40-0.60 | - | 0.20 | 0.10max | 0.20 | - | - | - | - |
A206 | AMS 4235 | Bal | 4.2-5.0 | .05max | 0.05max | 0.20-0.35 | - | 0.10ma | 0.20-0.50 | 0.15-0.30 | - | - | 0.5max | - |
B206 | Bal | 4.2-5.0 | .05max | 0.05max | 0.15-0.35 | - | 0.10max | 0.20-0.50 | 0 1 0 | - | - | 0.5max | - |