Casting & AM - Massachusetts Institute of...
Transcript of Casting & AM - Massachusetts Institute of...
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Casting & AM
2.810
T. GutowskiMFA
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Outline
1. Quick Review: Sand Casting, Die Casting
2. Basics: Phase Change, Shrinkage, Heat
Transfer
3. Design Issues, patterns and tools
4. Additive (laser metal powder bed)
Manufacturing
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Casting since about 3200 BCE…
Etruscan casting with runnerscirca 500 BCE
China circa 3000BCE
Lost wax jewelry from Greece
circa 300 BCE
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Bronze age to iron age
Ancient Greece; bronzestatue casting circa 450BCE
Iron works in early Europe,e.g. cast iron cannons fromEngland circa 1543
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Cast Parts
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Casting + AM
Readings;
1. Kalpakjian, Chapters 10, 11,
12
2. Booothroyd, Ch 10, 21
3. Flemings “Heat Flow in
Solidification”
4. Quinlan, …Hart JIE 2017
Note: a good heat transfer reference can be found by
Profs John Lienhard online http://web.mit.edu/lienhard/www/ahtt.html
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Casting Methods
• Sand CastingHigh Temperature Alloy, Complex Geometry, Rough Surface Finish
• Die CastingHigh Temperature Alloy, Moderate Geometry, Smooth Surface
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Sand Casting
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Sand Casting
Description: Tempered sand is packed into wood or metal pattern halves, removed form the pattern, and assembled with or without cores, and metal is poured into resultant cavities. Various core materials can be used. Molds are broken to remove castings. Specialized binders now in use can improve tolerances and surface finish.
Metals: Most castable metals.
Size Range: Limitation depends on foundry capabilities. Ounces to many tons.
Tolerances:Non-Ferrous 1/32 to 6Add .003 to 3, 3/64 from 3 to 6.Across parting line add .020 to .090 depending on size.
(Assumes metal patterns)
Surface Finish:Non-Ferrous: 150-350 RMSFerrous: 300-700RMS
Minimum Draft Requirements:1° to 5°Cores: 1° to 1 1/2°
Normal Minimum Section Thickness:Non-Ferrous: 1/8 - 1/4Ferrous: 1/4 - 3/8
Ordering Quantities: All quantities
Normal Lead Time:Samples: 2-10 weeksProduction 2-4 weeks A.S.A.
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Sand Casting Mold Features
Vents, which are placed in molds to carry off gases produced when the molten metal comes into contact with the sand in the molds and core. They also exhaust air from the mold cavity as the molten metal flows into the mold.
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Videos from Mass & Burlington Foundries
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Production sand casting
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Die Casting
Description: Molten metal is injected, under pressure, into hardened steel dies, often water cooled. Dies are opened, and castings are ejected.
Metals: Aluminum, Zinc, Magnesium, and limited Brass.
Size Range: Not normally over 2 feet square. Some foundries capable of larger sizes.
Tolerances:Al and Mg .002/in.Zinc .0015/in. Brass .001/in.Add .001 to .015 across parting line depending on
size
Surface Finish: 32-63RMS
Minimum Draft Requirements: Al & Mg: 1° to 3°Zinc: 1/2° to 2°Brass: 2° to 5°
Normal Minimum Section Thickness:Al & Mg: .03 Small Parts: .06 Medium Parts Zinc: .03 Small Parts: .045 Medium Parts Brass: .025 Small Parts: .040 Medium Parts
Ordering Quantities: Usually 2,500 and up.
Normal Lead Time:Samples: 12-20 weeks Production: ASAP after approval.
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15
Process variation/tolerance
Kalpakjian
Sand casting
Die casting
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Die cast parts & runners
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High Melt Temperature
•Reactivity•with air, mold mat’ls,
•Gas solubility•H2 gas in Al
•Safety•Metal fires, e.g. Mg
3000° C
0° C
1000° C
2000° C
Tungsten Carbide, WC, Silicon Carbide, SiC
Molybdenum
Alumina Al2O3
Platinum, PtTitanium, TiIron, Plain Carbon Steels, low alloy, stainlessNickel, NiNickel Alloy
Cubic Zirconia, ZrO2
Silicon, Si
Copper, Cu, Bronze, Brass
AluminumMagnesiumZinc, ZnPTFE (Teflon)Tin, SnHDPE
NylonAcetal
𝑀𝑔 + 2𝐻2𝑂 → 𝑀𝑔 𝑂𝐻 2+ 𝐻2
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Phase
Change &
Shrinkage
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Solidification of a binary alloy
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Composition change during
solidification
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Pb-Sn phase diagram
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Solidification
Dendrite growth in metals- lower surface energy
crystallographic planes are favored, producing
tree like structures if not disturbed. See next slide
for explanation of a, b & c
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Cast structures
Schematic illustration of three cast structures solidified in a square mold: (a) pure metals; (b) solid solution alloys; and c) structure obtained by using nucleating agents. Source: G. W. Form, J. F. Wallace, and A. Cibula
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Properties of castings
e.g. Compare elongation of carbon steels (4-36%)Table 5.3,
with cast irons (0-18%) Table 12.3 (Kalpakjian & Schmid 7th)
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How long does it take to
solidify?
Thickness ~ 30 cmThickness ~ 0.5 cm
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Sand Casting – Solidification Time
Ref: Mert Flemings “Solidification Processing”
Chvorinov’s Rule
p.247 your text
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Thermal Conductivity “k” (W/m·K)
Copper 394
Aluminum 222
Iron 29
Sand 0.61
PMMA 0.20
PVC 0.16
q = -k 𝑑𝑇
𝑑𝑥
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Transient Heat Transfer
Sand 3X10-3
Alu
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Sand Casting (see Flemings)
We seek the transient
temperature profile in
the sand.
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Sand Casting (see Flemings)
At t=0, T=To everywhere
At x=0, T=Tm alwaysThis will allow us to
calculate the heat
lost by the metal at
the boundary with
the sand tooling
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Solidification Time
Enthapy ofthe phase change/wt
Use Flemingsresult here
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Solidification Time (cont.)
The constant “C” (in this case not heat capacity)
is determined by experiment.
Several references suggest that values range:
C ~ 2 to 4 min/cm2 (with most data for iron and steel)
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How long does it take to
solidify?
Thickness ~ 30 cm
Solidification time = 3.3 (30/2)2 [min] ~ 12 hrs
Thickness ~ 0.5 cm
t = 3.3 (0.5/2)2 [min] ~ 12 sec
Order of magnitude estimate using half thickness, & C = 3.3 min/cm2
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Can you explain these
Solidification features?
Picture taken from the Chipman Room
?
?
?
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Heat Transfer – Die Casting
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Film Coefficients “h” W/m2·K
Typical die casting 1,000 - 10,000
Natural convection 1 - 10
Flowing air 10 - 50
Carbon coating high pressure low pressure polished die
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see Boothroyd Ch 10, p446-447
Suggest average value for h
of 5kW(m2K)
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Die Casting
Solidification
Times
Time to form solid part
A
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Time to cool part from melt temp to the
ejection temperature.
Integration yields…
Let,
Note C= heat capacity, h = film coefficient, w = part width, TM = melt temp, Tw =wall temp
For two sided cooling this gives
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Time to solidify + cool using superheat
temperature Tsp
Di = Ti + DTsp - Tmold
DTsp = H/C
Df = Teject - Tmold
For thin sheets of thickness “w”, including phase change
“sp” means superheatC is heat capacityH is latent heat of fusionh is film transfer coef
Approximations,
t ≈ 0.42 sec/mm x wmax (Zn)
t ≈ 0.47 sec/mm x wmax (Al)
t ≈ 0.63 sec/mm x wmax (Cu)
t 0.31 sec/mm x wmax (Mg)
Ref Boothroyd, Dewhurst, Knight p 447
Same as eq’n 10.29 Boothroyd
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Pattern and Tooling Design
• For pattern and tooling design issues see
Boothroyd, Dewhurst, & Knight:
• Ch 10 for die casting
• Ch 12 for sand casting, and the following
5 slides
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Pattern Design suggestions
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Pattern Design Issues (Alum)
• Shrinkage Allowance: 1.3%
• Machining Allowance: 1/16” = 1.6 mm
• Minimum thickness: 3/16” = 5 mm
• Parting Line: even
• Draft Angle: 3 to 5%
• Thickness: even
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Pattern Design
Table 12.1
Normal Shrinkage Allowance for
Some Metals Cast in Sand Molds
Metal Percent
Gray cast iron 0.83 – 1.3
White cast iron 2.1
Malleable cast iron0.78 – 1.0
Aluminum alloys 1.3
Magnesium alloys 1.3
Yellow brass 1.3 – 1.6
Phosphor bronze 1.0 – 1.6
Aluminum bronze 2.1
High-manganese steel 2.6
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Pattern materials
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Digital Sand Casting:
Print molds or parts?
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AM (Laser Metal Powder Bed) Steps to produce tooling
CAD file
3D printed part
Support structure
generation
Printing: EOS M280
Printed part on
plate, stress
relieve
Sawing (or wire
EDM) and hand
tool removal of
support structure
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Printed steel & aluminum tools
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Actual Build
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Laser Metal Powder Issues
1. Tolerances
2. Quality
3. Surface Finish
4. Production Rate
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Junk and Cote 2012
9.4E-03 kg/hr,1.8 to 2.3 E+08 J/kg
Corman 2014
1.2 to 1.8 E-02 kg/hr, 4.1E+07 J/kg to 2.9 E+08
J/kg
EPRI 2014
2.2E-02 kg/hr, 2.8 to 4.0 E+08J/kg
EPRI 2014 , BAAM,
10.0 kg/hr, 4.0E+06 J/kg
Telenko et al. 2011,
2.6E-02 kg/hr, 5.0E+08 J/kgBaumers et al. 2011,
4.1E-01 kg/hr, 2.0E+08 J/kgKellens et al. 2011,
4.1E-02 kg/hr, 1.3E+08 J/kg
Morrow et al. 2005,
3.6E-03kg/hr, 7.7E+09 J/kg
Baumers et al. 2010 ,
1.3E-01 kg/hr, 6.1E+07 J/kg
EPRI 2014,
8.9E-02 kg/hr, 1.1E+08 J/kg
Faludi et al. 2017 Full bed,
1.1E-02 kg/hr, 5.7E+08 J/kg
Faludi et al 2017 Single bed,
4.0E-02 kg/hr,1.2E+09 J/kg
Baumers et al. 2010 Full bed,
5.6E-02 kg/hr,1.1E+08 J/kg
Baumers et al. 2010 Single bed,
4.0E-02 kg/hr, 1.4E+08 J/kg
EPRI 2014
Binder jetting, 6.5E-03 kg/hr, 8.3E+07 J/kg
1.E+05
1.E+06
1.E+07
1.E+08
1.E+09
1.E+10
1.E+11
1.E+12
1.E+13
1.E+14
1.E+15
1.E-06 1.E-05 1.E-04 1.E-03 1.E-02 1.E-01 1.E+00 1.E+01 1.E+02 1.E+03 1.E+04 1.E+05 1.E+06
Ele
ctr
icit
y R
equ
irem
ents
[J/
kg]
Process Rate [kg/hr]
cupola Electric Induction Melting Injection Molding
Machining Finish Machining CVD
Sputtering Grinding Waterjet
Wire EDM Drill EDM Oxidation (Semiconductor)
Material Extrusion: FDM Material Extrusion: BAAM Powder bed fusion: Polymer, laser
Directed energy deposition: DMD Powder bed fusion: Metal, eletron beam Powder bed fusion: Metal, laser
Binder jetting
50 kW 5 kW
500 W
Measured 3D Printing
energy intensity (J/kg)
Vs Print rate (kg/hr) for AM
(metals in red,
plastics in blue)
overlaid on conventional
manufacturing processes.
(Gutowski et al 2017 JIE)
BAAM technology
More later…
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Strategies for improved rate
• Powder delivery- full bed, orientation
• Larger laser (tuned)
• Heated chamber
• Multiple lasers/heads
• Change basic mechanism – EBM, Direct
Metal,…
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54
Simple Build Rate model for Powders
Scan rate
Recoating rate
Full print chamber Under utilized bed
Baumers 2012
Note support structure
Ref: Buchbinder 2011
ሶ𝑉𝑏𝑢𝑖𝑙𝑑=𝑉𝑝𝑎𝑟𝑡
𝑁∙𝑡𝑟𝑒𝑐𝑜𝑎𝑡+𝑉𝑝𝑎𝑟𝑡+𝑉𝑠𝑢𝑝𝑝𝑜𝑟𝑡
ሶ𝑉𝑠𝑐𝑎𝑛
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55
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Ref Sheng Jiang M.S. 2015
w ~ 0.3 mmd ~ 0.1 mm
Laser melting of powdersCommon laser power:
Polymers ~ 50 W (CO2 10.6m)
Metals ~ 200 W (Nd:YAG 1.06m )
Absorption ~ 0.6
Laser scan speeds
~ .1 to 1 m/s
“max” build rate:
30mm3/s
= 108 cm3/hr
Dwell time ~ 0.1 ms
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.
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =𝛼𝑃
𝑐 ∙ ∆𝑇 + 𝛾
𝛼 = laser/material absorption coefficient
(0 ≤ 𝛼 ≤ 1)
P = laser power (W)
c = average specific heat (J/(kg K))
∆T = Tmelt - Tstart ( K)
𝛾 = enthalpy of melting (J/kg)
𝜂𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =ሶ𝑚𝑎𝑐𝑡𝑢𝑎𝑙
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐
Adiabatic Rate Efficiency
w ~ 0.3 mm d ~ 0.1 mm
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.
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =𝛼𝑃
𝑐 ∙ ∆𝑇 + 𝛾
Improvement Strategies
Tune laserIncrease power
Heat bed
w ~ 0.3 mm d ~ 0.1 mm
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Laser selection
w ~ 0.3 mmd ~ 0.1 mm
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Sheng Jiang Sept 2015
Absorptivity of powders
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Sheng Jiang Sept 2015
Extinction coefficient
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Sheng Jiang Sept 2015
Capillarity & Vaporization
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Sheng Jiang Sept 2015
Ref Sheng Jiang M.S. 2015
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From manufacturer’s spec sheets
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How to make the process fasted
1. More powerful laser(s), 2. Heated Chamber
Buchbinder 2011
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New developments with multiple lasersEuromold takes place between
25th – 28th November in Frankfurt/Main.
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Laser Power (W)
Build
Rate
cm
3/h
r
Measured print rates
for aluminum powders (AlSi10Mg)
Vs laser power
(Gutowski et al 2017 JIE)
Laser Power (W)
Bu
ild R
ate
cm3/h
r
Measured print rates for steel powders (mostly
316 SS) Vs laser power
0
10
20
30
40
50
60
70
0 500 1000 1500 2000
0
10
20
30
40
50
60
70
0 200 400 600 800 1000 1200
Increase in build rate with
laser power
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.
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =𝛼𝑃
𝑐 ∙ ∆𝑇 + 𝛾
𝜂𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =ሶ𝑚𝑎𝑐𝑡𝑢𝑎𝑙
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐Measured rate/adiabatic rate Vs laser power
intensity for steel powders
for different additive equipment using larger lasers
and defocusing.(Gutowski et al 2017 JIE)
T> Tmelt
T<Tvapor
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Wiesner et al.
2014, 3.6%
Buchbinder et al.
2011, 4.6%
Buchbinder et al.
2011, 6.2%
Buchbinder et al.
2011, 5.9%
Buchbinder et al.
2011, 5.5%
Buchbinder et al.
2011, 8.0%
Kempen et al.
2012, 7.5%
Kempen et al.
2012, 6.5%
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
0 200 400 600 800 1000 1200 1400 1600 1800
Mea
sure
d r
ate/
Ad
iab
atic
rat
e
Power [W]
Measured rate/adiabatic rate Vs laser power for aluminum powders
for different additive equipment using various improvement strategies.
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =𝛼𝑃
𝑐 ∙ ∆𝑇 + 𝛾
𝜂𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =ሶ𝑚𝑎𝑐𝑡𝑢𝑎𝑙
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐
(Gutowski et al 2017 JIE)
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Wohlers 2014
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Summary
• Digital to Part is a reality, opening up all
kinds of creative opportunities, but
• As a Mfg Process rate remains an issue
– Increase adsorption
– Split laser beam
– Change heating mechanism (EBM, Direct
Metal P/M extrusion and sinter)
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Videos from Mass & Burlington Foundries
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.
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =𝛼𝑃
𝑐 ∙ ∆𝑇 + 𝛾
𝛼 = laser/material absorption coefficient
(0 ≤ 𝛼 ≤ 1)P = laser power (W)
c = average specific heat (J/(kg K))
∆T = Tmelt - Tstart ( K)
𝛾 = enthalpy of melting (J/kg)
𝜂𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 =ሶ𝑚𝑎𝑐𝑡𝑢𝑎𝑙
ሶ𝑚𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐
(Gutowski et al 2017 JIE)
𝜂𝑒𝑛𝑒𝑟𝑔𝑦 ≅ 𝜂𝑎𝑑𝑖𝑎𝑏𝑎𝑡𝑖𝑐 ∙ 𝜂𝑙𝑎𝑠𝑒𝑟 ∙ 𝜂𝑔𝑟𝑖𝑑
Adiabatic Rate Efficiency Energy Efficiency