Method of manufacture of single phase ceramic superconductors
Patent
·
OSTI ID:869804
- Naperville, IL
- Glen Ellyn, IL
- Downers Grove, IL
A ceramic superconductor is produced by close control of oxygen partial pressure during sintering of the material. The resulting microstructure of YBa.sub.2 Cu.sub.3 O.sub.x indicates that sintering kinetics are enhanced at reduced p(O.sub.2) and that because of second phase precipitates, grain growth is prevented. The density of specimens sintered at 910.degree. C. increased from 79 to 94% theoretical when p(O.sub.2) was decreased from 0.1 to 0.0001 MPa. The increase in density with decrease in p(O.sub.2) derives from enhanced sintering kinetics, due to increased defect concentration and decreased activation energy of the rate-controlling species undergoing diffusion. Sintering at 910.degree. C resulted in a fine-grain microstructure, with an average grain size of about 4 .mu.m. Post sintering annealing in a region of stability for the desired phase converts the second phases and limits grain growth. The method of pinning grain boundaries by small scale decompositive products and then annealing to convert its product to the desired phase can be used for other complex asides. Such a microstructure results in reduced microcracking, strengths as high as 230 MPa and high critical current density capacity.
- Research Organization:
- Argonne National Laboratory (ANL), Argonne, IL
- DOE Contract Number:
- W-31109-ENG-38
- Assignee:
- University of Chicago (Chicago, IL)
- Patent Number(s):
- US 5401712
- OSTI ID:
- 869804
- Country of Publication:
- United States
- Language:
- English
Similar Records
Method of producing improved microstructure and properties for ceramic superconductors
Method of manufacture of single phase ceramic superconductors
Role of p sub O sub 2 in microstructural development and properties of YBa sub 2 Cu sub 3 O sub x superconductors
Patent
·
1995
·
OSTI ID:870456
Method of manufacture of single phase ceramic superconductors
Patent
·
1995
·
OSTI ID:35077
Role of p sub O sub 2 in microstructural development and properties of YBa sub 2 Cu sub 3 O sub x superconductors
Journal Article
·
1992
· Journal of Materials Research; (United States)
·
OSTI ID:6959830
Related Subjects
/505/252/
0001
230
79
910
94
activation
activation energy
annealing
asides
average
average grain
boundaries
capacity
ceramic
ceramic superco
ceramic superconductor
ceramic superconductors
close
close control
complex
concentration
control
convert
converts
critical
critical current
cu
current
current density
decompositive
decrease
decreased
defect
degree
density
derives
desired
desired phase
diffusion
due
energy
enhanced
fine-grain
grain
grain boundaries
grain growth
grain size
growth
increase
increased
indicates
kinetics
limits
manufacture
material
method
microcracking
microstructure
mpa
oxygen
oxygen partial
partial
partial pressure
phase
phase ceramic
phase precipitate
phases
pinning
post
precipitates
pressure
prevented
produced
product
products
rate-controlling
reduced
region
resulted
resulting
resulting microstructure
results
scale
single
single phase
sintered
sintering
size
species
specimens
stability
strengths
superconductor
superconductors
theoretical
undergoing
yba
0001
230
79
910
94
activation
activation energy
annealing
asides
average
average grain
boundaries
capacity
ceramic
ceramic superco
ceramic superconductor
ceramic superconductors
close
close control
complex
concentration
control
convert
converts
critical
critical current
cu
current
current density
decompositive
decrease
decreased
defect
degree
density
derives
desired
desired phase
diffusion
due
energy
enhanced
fine-grain
grain
grain boundaries
grain growth
grain size
growth
increase
increased
indicates
kinetics
limits
manufacture
material
method
microcracking
microstructure
mpa
oxygen
oxygen partial
partial
partial pressure
phase
phase ceramic
phase precipitate
phases
pinning
post
precipitates
pressure
prevented
produced
product
products
rate-controlling
reduced
region
resulted
resulting
resulting microstructure
results
scale
single
single phase
sintered
sintering
size
species
specimens
stability
strengths
superconductor
superconductors
theoretical
undergoing
yba