Optical Transmittance Model Construction for ZnO Transparent Ceramic and Experimental Verification

De-Bao LIN; Ling-Cong FAN; Mao-Mao DING; Jian-Jun XIE; Fang LEI; Ying SHI

doi:10.15541/jim20180418

Journals >Journal of Inorganic Materials >Volume 34 >Issue 8 >Page 851 > Article

Journal of Inorganic Materials
Vol. 34, Issue 8, 851 (2019)

Optical Transmittance Model Construction for ZnO Transparent Ceramic and Experimental Verification

De-Bao LIN, Ling-Cong FAN, Mao-Mao DING, Jian-Jun XIE, Fang LEI, and Ying SHI^*

Author Affiliations

Material Science and Engineering, Shanghai University, Shanghai 200444, China

show less

DOI: 10.15541/jim20180418 Cite this Article

De-Bao LIN, Ling-Cong FAN, Mao-Mao DING, Jian-Jun XIE, Fang LEI, Ying SHI. Optical Transmittance Model Construction for ZnO Transparent Ceramic and Experimental Verification[J]. Journal of Inorganic Materials, 2019, 34(8): 851 Copy Citation Text

show less

1. Three special situations in simplified model of light transmission through intergranular

Download full size | View in the Article

2. Variation of in-line transmission of ZnO ceramic calculated from the RGD scatting model from different grain sizes

Download full size | View in the Article

3. Comparation of in-line optical transmittance of ZnO ceramics with different grain sizes between calculated values from the RGD scattering model and ZnO samples by SPS processing

Download full size | View in the Article

$Photographs of ZnO ceramics and corresponding fracture morphologies with grain sizes of (a) 2.65, (b) 1.72, (c) 0.76 and (d) 0.66 μm$

4. Photographs of ZnO ceramics and corresponding fracture morphologies with grain sizes of (a) 2.65, (b) 1.72, (c) 0.76 and (d) 0.66 μm

Download full size | View in the Article

5. Hypothesis calculation of scatting factor and orientation factor based on ZnO ceramic

Download full size | View in the Article

6. In-line optical transmittance curves of ZnO ceramic with different orientation factor based on theory computation

Download full size | View in the Article

7. Comparation of in-line optical transmittance of ZnO ceramics calculated from the RGD scattering model with orientation factor at 600 nm

Download full size | View in the Article

2θ/(°)	(hkl)	Intensity/%	Angel α with(001) plane/(°)	2θ/(°)	(hkl)	Intensity/%	Angel α with(001) plane/(°)
31.769	100	17.33	90	66.378	200	1.22	90
34.421	002	13.37	0	67.961	112	6.99	52.60
36.252	101	30.40	61.61	69.098	201	3.34	74.88
47.538	102	6.99	42.77	72.561	004	0.61	0
56.602	110	9.73	90	76.953	202	1.22	61.61
62.862	103	8.81	31.66

Table 1. Comparation of ZnO ceramics and standard pattern for ZnO measured by XRD (normalized intensity)

View in the Article

θ=90-α/(°)	0	30	45	60	90
θ=90-α/(°)	(<15)	(15-37.5)	(37.5-52.5)	(52.5-75)	(75-90)
sinθ	0	0.5	0.707	0.866	1
P₀	P₀₁(28.3%)	P₀₂(42.0%)	P₀₃(7.0%)	P₀₄(8.8%)	P₀₅(14.0%)

Table 2. Hypothesis calculation of standard pattern for ZnO

View in the Article

θ/(°) f	0	30	45	60	90	μ(f)
θ/(°) f	(<15)	(15-37.5)	(37.5-52.5)	(52.5-75)	(75-90)	μ(f)
0	28.28%	41.95%	6.99%	8.81%	13.98%	0.4752
4.0%	31.13%	40.62%	5.69%	7.46%	15.09%	0.4588
9.2%	34.57%	43.65%	6.13%	5.58%	10.07%	0.4106
24.8%	46.62%	39.03%	4.34%	4.34%	5.67%	0.3201

Table 3. Hypothesis calculation of standard pattern for ZnO

Download Citation

Save the article for my favorites

Paper Information