MENAD Heraiz
حرايز مناد
menad.heraiz@univ-msila.dz
06 62 9730 18
- Departement of Physics
- Faculty of Sciences
- Grade Prof
About Me
Doctorat en Sciences (Physique du solide). in Université de Batna
Research Domains
• Matériaux Céramiques (Elaboration, Frittage, Propriétés Physiques et Chimiques) • Sciences des Matériaux (Transformation de phase, Dislocation, Diffusion, Propriétés physiques). • Matériaux optoélectroniques, Composite, Verres
LocationMsila, Msila
Msila, ALGERIA
Code RFIDE- 2021
- 2021
-
Co-Encaderement Doctorat soutenu
بديار ليلى
قالمة (DD1) آلية التحولات الطورية و التلبيد لمواد خزفية قاعدتها الصلصال المحلي (المسيلة) و الكاولان
- 2020
-
master
LAZIRI, Khadidja
Analytical Study of the Mullite-Cordierite composites prepared by sol-gel method
- 2019
-
master
بوسعدية سهيلة
تحضير و دراسة الخلائط ميليت كربيد السيليكون انطلاقا من مواد منجميه محلية
- 2018
-
Doctorat soutenu
رغدي أمينة
دراسة آلية وحركية كل من التلبيد و التحولات الطورية لمواد حرارية قاعدتها أكسيد الزركونيوم و الجيبسيت مضافا لها الكاولان المحلية
- 2018
-
Co-Encaderement Doctorat soutenu
رداوي الجيدة
دراسة آلية التحولات الطورية لمواد حرارية محضرة انطلاقا من أكسيد المغنزيوم و الكاولينيت المحلية
- 2018
-
Co-Encaderement Master
CHOUBAR Yamina
Fabrication et caractérisation des adsorbants «carbones activés» à matériaux partir de charbon bitumineux
- 2017
- 2016
- 2015
-
master
سحنون نور الهدى
DTA-TG تحضير وتلبيد البورسولان وحساب عوامل تفكك كاولينيت تمازارت إلى ميتاكاولينيت بواسطة
- 20-04-2010
-
Doctorat en Sciences (Physique du solide)
تحضير وتلبيد الخزفيات ذات الأساس كاولان-ألومينا ودراسة خصائصها الفيزيائية و الميكانيكية - 1966-11-29 00:00:00
-
MENAD Heraiz birthday
- 2023-10-27
-
2023-10-27
Mechanism and characterization of forsterite (Mg2SiO4) formation obtained by the sol-gel method
In this work, forsterite precursor powder was prepared through a technology of low-temperature synthesis by using the sol-gel process, tetraethyl orthosilicate, and Mg(NO3)2.6H2O were used as raw materials to synthesize forsterite. To pursue and characterize the crystalline phases and their transformation as a function of temperature, Thermogravimetry, differential thermal analysis, X-ray diffraction and Fourier-transform infrared spectroscopy was used. The results showed that the crystallization process occurred in the temperature range of 650 to 1100 °C. Forsterite, a mineral with the chemical formula Mg2SiO4, was formed in the 650–800 °C temperature range. When the temperature is increased from 800 °C to 1100 °C, forsterite becomes more crystallized. The obtained results agree with the X-ray diffraction analyses that approve that there is just one phase (forsterite). The activation energy values (Ea/Tm) calculated by Ozawa, Boswell, and Kissinger methods are in good agreement with the activation energy (Eα/Tα) calculated using the KAS and FWO methods. So as to determine the interaction model and find the parameters that determine the interaction model based on the experimental data, Malék's methodology method was used. The Šesták - Berggren model is the most appropriate kinetic model to describe the reaction process to form forsterite. From the SB model, the equations Kinetics and all kinetic parameters (n, m, ln(k0)) that describe the kinetics of the reactions and mechanisms of formation of forsterite are, respectively, 1.02 , 0.36, and 26.8. While the values of Gibbs free energy #ΔG, enthalpy #ΔH, and entropy #ΔS were as follows: 294.871 kJ/mol, 252.938 kJ/mol, and -40.5 J/mol.K for forsterite formation.
Citation
MENAD Heraiz , Ahcen Keziz , ,(2023-10-27), Mechanism and characterization of forsterite (Mg2SiO4) formation obtained by the sol-gel method,10th INTERNATIONAL CONFERENCE ON COMPUTATIONAL AND EXPERIMENTAL SCIENCE AND ENGINEERING (ICCESEN-2023),ANTALYA-TURKEY
- 2023-09-09
-
2023-09-09
Structural, morphological, dielectric properties, impedance spectroscopy and electrical modulus of sintered Al6Si2O13–Mg2Al4Si5O18 composite for electronic applications
In this study, the sol-gel method of low-temperature synthesis was utilized to create mullite/cordierite precursor powder. The materials (TEOS) Si(C2H5O)4, Al(NO3)3.9H2O and Mg(NO3)2 were utilized as source of SiO2, Al2O3, and MgO oxides respectively in order to create mullite/cordierite precursor gel with various concentrations and designations (MC00, MC10, MC20, MC30, MC40, and MC50). Crystalline phases were seen and described using scanning electron microscopy (SEM) and powder X-ray diffraction (XRD). After the powder was formed at 1600 ◦C for an hour, its sintering was looked at. For all mixes, as the cordierite concentration rises, the bulk density rises and the open porosity decreases. The existence of a vitreous phase may be the cause of the rise in bulk density and reduction in open porosity seen with rising temperatures. The dielectric characteristics of the samples have been examined at room temperature; the relative dielectric constant (εr), loss tangent (tan δ), and dielectric characteristics were assessed at frequencies of 0.1 Hz, 1, 10, 100, and 1000 kHz. At 1 kHz, the relative dielectric constant values are closest to those of mullite (εr = ~5 to ~ 6), and c at 1 kHz. On the other hand, the lowest dielectric losses were observed (tan δ from ~0.06 to ~ 0.04). The Electrical properties, electrical resistivity, AC conductivity, impedance spectroscopy, electrical modulus, and the relative quality factor (QF) of pure mullite and mullite/cordierite composite sintered at 1600 ◦C for 1 h (MCyy) samples were investigated as a function of cordierite content at varied frequencies (0.01 Hz, 1 kHz, 100 kHz, and 1000 kHz). The hardness (HV) and coefficient of thermal expansion (CTE) of the composite material that underwent sintering at a temperature of 1600 ◦C were determined by the use of a hardness tester and a dilatometer, respectively. The rise in temperature, coupled with an equal quantity of cordierite, resulted in an elevation of the apparent density and a reduction in the open porosity. In the case of the specimen subjected to sintering at a temperature of 1600 ◦C, the introduction of cordierite content in the range of 0–40% resulted in an observed rise in HV value from 9.15 to 12.99 GPa. However, a further increase in cordierite content to 50% led to a decrease in HV value to 10.99 GPa. Nevertheless, the CTE value throughout the temperature range of 50–1200 ◦C exhibited a consistent decline, ranging from 5.37 × 10 6 to 2.32 × 10 6 K 1. Notably, the composite material consisting of 50 wt% cordierite had elevated HV and the most minimal CTE value.
Citation
Ahcen Keziz , MENAD Heraiz , Foudil SAHNOUNE , Mohammed Rasheed, Aya Latif, , (2023-09-09), Structural, morphological, dielectric properties, impedance spectroscopy and electrical modulus of sintered Al6Si2O13–Mg2Al4Si5O18 composite for electronic applications, Ceramics International, Vol:49, Issue:23, pages:37423-37434, ELSEVIER SCI LTD
- 2023-03-10
-
2023-03-10
Dense, Hard, and Thermally Stable Al6Si2O13–Mg2Al4Si5O18 Composite Material for Silicon Substrate Applications
One of the key problems to overcome, in the development of electronic substrates, is that of thermal distortion because of thermal mismatch between silicon and the substrate. The aim of this work is to design a mullite-cordierite composite material, with coefcient of thermal expansion tailored to silicon substrate applications. Dense, hard, and thermally stable Al6Si2O13–Mg2Al4Si5O18 composite was produced by sintering amorphous precursor powder synthesized through the sol–gel method. Si(C2H5O)4, Al(NO3)3.9H2O, and Mg(NO3)2.6H2O were used, as source of SiO2, Al2O3, and MgO oxides, respectively, to prepare mullite-cordierite precursor powders. Fourier-Transform Infrared spectroscopy (FTIR), Thermogravimetry (TG), Dilatometry, Diferential Thermal Analysis (DTA), and X-ray powder Difraction (XRD) methods were used to characterize the synthesized amorphous powder and its crystallization. The microstructure of specimens sintered at 1600 °C for 1 h was analyzed using a scanning electron microscope (SEM). The hardness (HV) and coefcient of thermal expansion (CTE) of the composite sintered at 1600 °C were measured by using a hardness tester and a dilatometer, respectively. The results show the increase in density and decrease in open porosity with the increase in temperature and equivalent amount of cordierite. For specimens sintered at 1600 °C, the increase in cordierite content from 0 to 40 wt.% increased the HV from 9.18 to 13.08 GPa; a further increase to 50 wt.% decreased it to 11.15 GPa. Sample containing 40 wt.% cordierite had the highest value of hardness (HV=13.08 GPa), representing an increase of 42.48% with respect to monolithic mullite. The CTE of the composites (in the range 50–1000 °C) showed continuous decrease from 5.23× 10–6 to 2.26× 10–6 K−1 with the increase in cordierite content from 0 to 50%. Sample containing 50 wt.% cordierite displayed the lowest thermal expansion (CTE of 2.26× 10−6 K−1), representing a decrease of 56.78% with respect to monolithic mullite.
Citation
Ahcen Keziz , MENAD Heraiz , Foudil SAHNOUNE , KHADIDJA Laziri , Redaoui El Djida, Saheb Nouari, , (2023-03-10), Dense, Hard, and Thermally Stable Al6Si2O13–Mg2Al4Si5O18 Composite Material for Silicon Substrate Applications, Silicon, Vol:15, Issue:4, pages:12, springer
- 2023-01-08
-
2023-01-08
Characterization and mechanisms of the phase’s formation evolution in sol-gel derived mullite/cordierite composite
In this work, mullite/cordierite precursor powder was prepared through a technology of low-temperature synthesis by using the sol-gel process, tetraethyl orthosilicate (TEOS) as a source of silicon oxide SiO2, and aluminum nitrate nonahydrate Al (NO3)3.9H2O as a source of aluminum oxide (Al2O3) and magnesium nitrate hexahydrate Mg (NO3)2.6H2O as a source of magnesium oxide MgO was used as raw materials to synthesize mullite/cordierite precursor gel with a concentration (sample containing 50 wt% of cordierite and 50 wt% of mullite) and named as (MC50). The objective of this study is to find a suitable kinetic model to study the phases and the mechanisms of their formation in mixtures, with the prediction of the system’s behavior under selected thermal conditions, including finding the kinetic and thermodynamic media that describe these interactions. To follow and characterize the crystalline phases and their transformation as a function of temperature utilizing differential thermal analysis (DTA), Dilatometry (DIL), and powder X-ray diffraction (XRD). The results show that the crystallization process occurred in the temperature interval between (900–1350) ◦C. In the temperature range of (900–1000) ◦C, spinels between Al–Si and Al–Mg with the chemical formulas (Al4Si3O12 and MgAl2O4) were formed. When the thermal treatment temperature increases from (1000–1100) ◦C, mullite is produced. As the temperature increases, the amount of Mg–Al spinel decreases to form amorphous silica, and μ-cordierite has appeared at 1250 ◦C. With an increase in temperature up to 1350 ◦C, α-cordierite appeared as a stable phase. The reason for this is the presence of the spinel (Al–Mg) phase that helped it form. To determine the reaction kinetics of these transformations at high temperatures, the mixture 50/50 mullite/ cordierite was selected to study its kinetics. The activation energy values (Ea/Tm) (Tm is the maximum temperature of the transformation, i.e., the maximum peak temperature is not related to the crystallization fraction α) calculated by Ozawa, Boswell, and Kissinger methods are in good agreement with the evident activation energy (Eα/Tα) (Tα is the degree of the heat of transformation in terms of crystallization fraction α changes from 0<α < 1) calculated using the KAS and FWO methods. For the purpose of calculating the interaction model and finding the media that determine the interaction model based on the experimental data, Mal´ek’s methodology method was used. The best kinetic model is the ˇSest´ak - Berggren model to describe the reaction process to form spinel, mullite, and α-cordierite. From the SB model, the equations Kinetics and all kinetic parameters (n, m, ln(k0)) that describe the kinetics of the reactions and mechanisms of formation of spinel, mullite, and α-cordierite in the mixture are, respectively, (2.14, 0.023, 65.21), (1.62, 0.1232, 81.76), and (1.41, 0.2859, 91.13). While the values of Gibbs free energy ΔG#, enthalpy ΔH#, and entropy ΔS# were as follows: 407.254 kJ mol 1, 976.756 kJ mol 1 and 415.561 J mol 1K 1 for Mullite formation, and 471.64 kJ mol 1, 1255.16 kJ.mol-1 and 491.75 J mol 1K 1 for the formation of α-cordierite. Comparison of simulation curves with experimental data obtained at different temperatures gives good agreement with the thermal analysis data (Experimental), which indicates that the Model of ˇSestak Berggren, is the best suitable kinetic model for studying and describing the reaction technique for MC50 prepared by the solgel method.
Citation
Ahcen Keziz , MENAD Heraiz , Foudil SAHNOUNE , Mohammed Rasheed, , (2023-01-08), Characterization and mechanisms of the phase’s formation evolution in sol-gel derived mullite/cordierite composite, Ceramics International, Vol:49, Issue:20, pages:32989–33003, ELSEVIER SCI LTD
- 2022
-
2022
Preparation of ceramic composite powders by By the sol-gel Method
Preparation of ceramic composite powders by By the sol-gel Method
Citation
Ahcen Keziz , MENAD Heraiz , ,(2022), Preparation of ceramic composite powders by By the sol-gel Method,Séminaire international sur la chimie organique et pharmaceutique (ICPOC’ 2022) , 11 et 12 octobre 2022,,université de 20 Aout 1955- Skikda
- 2022
-
2022
CHARACTERIZATION OF CORDIERITE/MULLITE COMPOSITES PREPARED BY SOL-GEL TECHNIQUE
CHARACTERIZATION OF CORDIERITE/MULLITE COMPOSITES PREPARED BY SOL-GEL TECHNIQUE
Citation
Ahcen Keziz , MENAD Heraiz , ,(2022), CHARACTERIZATION OF CORDIERITE/MULLITE COMPOSITES PREPARED BY SOL-GEL TECHNIQUE,THE 1ST INTERNATIONAL CONFERENCE ON RENEWABLE MATERIALS AND ENERGIES ICRME2022 October 26-27, 2022, ”,OUARGLA-ALGERIA
- 2021
-
2021
Microstructure, thermal expansion, hardness and thermodynamic parameters of cordierite materials synthesized from Algerian natural clay minerals and magnesia
Low-cost, dimensionally stable, and hard cordierite ceramic materials were prepared by reaction sintering two Algerian natural clay minerals and synthetic magnesia. The microstructure and hardness of the developed materials were characterized by a scanning electron microscope and a hardness tester, respectively. Differential thermal analysis, dilatometry, and Raman spectroscopy were used to analyze the transformation of phases and sintering behavior. The coefficient of thermal expansion (α) was determined from dilatometry experiments. The microstructure of DT00M sample synthesized from stoichiometric powder mixture (clay minerals and synthetic magnesia) consisted of cordierite only. Whereas cordierite, magnesium silicate, and sapphirine phases were present in DT04M and DT08M samples prepared from non-stoichiometric powder mixtures containing excess magnesia of 16 and 20 wt.%, respectively. The values of the activation energy (Ea) and frequency factor (A), for cordierite crystals, varied from 577 to 951 kJ/mol, and 1.54 × 1018 to 1.98 × 1030 S−1, respectively. The kinetic parameter n for the formation of cordierite had values between 2 and 3. While the Gibbs free energy (ΔG#), enthalpy (ΔH#), and entropy (ΔS#) values were found to be in the range 431–483 kJ/mol, 564–938 kJ/mol, and 70–313 J/mol, respectively. Samples sintered at 1300 °C for 2 h showed higher values of hardness compared with those sintered at 1250 °C. The DT04M sample had the highest hardness value of 9.45 GPa, demonstrating an increase of 12.5% with respect to monolithic cordierite (DT00M). In the temperature range 100–1300 °C, DT04M and DT08M samples showed better dimensional stability compared to monolithic cordierite. The DT08M sample showed the lowest thermal expansion (α = 2.32 × 10−6/°C), demonstrating a decrease of 31.3% with respect to monolithic cordierite.
Citation
smail LAMARA , Foudil SAHNOUNE , MENAD Heraiz , redaaoui djida, Nouari Saheb, , (2021), Microstructure, thermal expansion, hardness and thermodynamic parameters of cordierite materials synthesized from Algerian natural clay minerals and magnesia, Boletín de la Sociedad Española de Cerámica y Vidrio, Vol:60, Issue:5, pages:291-306, ELSEVIER
- 2020
-
2020
Formation of anorthite containing cordierite materials through reaction sintering kaolin, MgO and CaO precursors
The effect of CaO on cordierite formation from kaolin-MgO-CaO powder mixtures, milled for 5 h and reaction sintered for 2 h in the temperature range 900-1400 °C, was investigated. Phases formed in the developed materials were characterized by x-ray powder diffraction method (XRD) and Raman spectroscopy. Non-isothermal differential thermal analysis (DTA) and thermogravimetric (TG) experiments were performed from room temperature to 1400 °C, at heating rates from 20 to 40 °C/min. Activation energies were determined using Kissinger method. It was found that sintering the stoichiometric kaolinmagnesia mixture led to the nucleation and growth of monolithic cordierite; while cordierite along with anorthite were present in the other two samples where 4 or 8 wt% of CaO was added. The increase in CaO decreased cordierite formation temperature and increased the activation energy, which ranged from 445 to 619 kJ/mol for μ-cordierite and from 604 to 1335 kJ/mol for α-cordierite. Keywords: Clays; MgO; Cordierite; Sintering; Kinetics
Citation
smail LAMARA , Foudil SAHNOUNE , MENAD Heraiz , Redaoui Djida, Nouari Saheb, , (2020), Formation of anorthite containing cordierite materials through reaction sintering kaolin, MgO and CaO precursors, Science of Sintering,, Vol:52, Issue:2, pages:135-147, INT INST SCIENCE SINTERING (I I S S)
- 2019
-
2019
Phase transformation and Sintering of Mullite Powder Synthesized via Sol-Gel process Using Differential themal Analysis (DTA) and Dilatometry (DL)
Mullite (3Al2O3·2SiO2) as the main phase in SiO2- Al2O3 system is one of the most commun studied ceramic materials has low toughness and hardness, better thermal shock resistance, excellent high temperature mechanical properties, high thermal and chemical stability, low thermal expansion coefficient and high creep resistance. In this present study, Mullite of stoichiometric composition has been synthesized by sol-gel process followed by calcination. Tetraethyl orthosilicate TEOS as silica source and Aluminum nitrate nonahydrate Al(NO3)3.9H2O as alumina source. Thermogravimetry (TG), differential thermal analysis (DTA), dilatometry, high temperature x-ray powder diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy, and scanning electron microscopy (SEM) complementary techniques were used to analyses the transformation of phases and sintering behaviour, The coefficient of thermal expansion (α) and investigate crystallization kinetics. Different crystalline phases were present in the samples sintered in the temperature range 900–1400 °C, the Mullite phase started to crystallize at 1100 °C, and the formation of highly dense Mullite (996%) was complete at 1350 °C. The activation energy values for Mullite formation calculated using Kissinger, Boswell, and Ozawa methods. The kinetic parameters n and m had values close to 2. Bulk nucleation with a constant number of nuclei was the dominant mechanism in cordierite crystallization, followed by two-dimensional growth controlled by interface reaction.
Citation
Foudil SAHNOUNE , MENAD Heraiz , Djamel ALLALI , Smail lamara, Djaida Redaoui, Nouari Saheb, ,(2019), Phase transformation and Sintering of Mullite Powder Synthesized via Sol-Gel process Using Differential themal Analysis (DTA) and Dilatometry (DL),6th INTERNATIONAL CONFERENCE ON COMPUTATIONAL AND EXPERIMENTAL SCIENCE AND ENGINEERING (ICCESEN-2019),ANTALYA-TURKEY
- 2019
-
2019
Phase Transformation of Mullite Powder Synthesized via Sol-Gel Process,
Mullite (3Al2O3•2SiO2) as the main phase in SiO2-Al2O3 system is one of the most commun studied ceramic materials has low toughness and hardness, better thermal shock resistance, excellent high temperature mechanical properties, high thermal and chemical stability, low thermal expansion coefficient and high creep resistance. In this present study, Mullite of stoichiometric composition has been synthesized by sol-gel process followed by calcination. Tetraethyl orthosilicate (TEOS) as silica source and Aluminum nitrate nonahydrate (Al(NO3)3.9H2O) as alumina source. Thermogravimetry (TG), differential thermal analysis (DTA), dilatometry, high temperature x-ray powder diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy, and scanning electron microscopy (SEM) complementary techniques were used to analyses the transformation of phases and sintering behaviour, The coefficient of thermal expansion (α) and investigate crystallization kinetics. Different crystalline phases were present in the samples sintered in the temperature range 900–1400 °C, the Mullite phase started to crystallize at 1100 °C, and the formation of highly dense Mullite (96%) was complete at 1350 °C. The activation energy values for Mullite formation calculated using Kissinger, Boswell, and Ozawa methods. The kinetic parameters n and m had values close to 2. Bulk nucleation with a constant number of nuclei was the dominant mechanism in cordierite crystallization, followed by two-dimensional growth controlled by interface reaction. Keywords: Mullite, Sintering, Differential Thermal Analysis, Dilatometry
Citation
Foudil SAHNOUNE , MENAD Heraiz , Smail LAMARA, Djaida REDAOUİ, Nouari SAHEB, Djamel ALLALI, ,(2019), Phase Transformation of Mullite Powder Synthesized via Sol-Gel Process,,International Conference on Technology, Engineering and Science (IConTES),ANTALYA-TURKEY
- 2019
-
2019
Kinetic Parameters and sintering Mechanism of Algeria Clay Powder Using Differential Thermal Analysis (DTA) and Dilatometry (Dl)
The clay is one of the most used natural materials in the ceramic industry with very different applications such as pottery, tiles, cement and brick. The latter is used as building materials because of their excellent thermal and mechanical properties. In the present study, the mechanism and kinetic parameters of transformation Phases of Algerian clay from Al-maathed was studied by Differential Thermal Analysis (DTA) and dilatometry analysis (DL) technique. Phases present and their transformations, the activation energy, and the sintering mechanism were evaluated through x-ray diffraction, differential thermal analysis (DTA), thermogravimetric (TG) and dilatometer. The activation energy calculated by non-isothermal (Kissinger method) treatments, for the Phases transformation are 1000 kJ/mol and for the sintering is 460 KJ/mol. The value of the Avrami exponent, n, is determined from the shape of the crystallization exothermic and is related to Tm and the m parameter (a numerical factor which depends on the dimensionality of crystal growth) obtained by Matusita method were both about 1,2 sintering clay. These values indicating that bulk nucleation is dominant in sintering clay by three-dimensional with polyhedron-like morphology controlled by interface reaction. Keywords: Ceramics, Thermal analysis, Powders. Clay.
Citation
Ameur Ouali , Foudil SAHNOUNE , MENAD Heraiz , ,(2019), Kinetic Parameters and sintering Mechanism of Algeria Clay Powder Using Differential Thermal Analysis (DTA) and Dilatometry (Dl),International Conference on Technology, Engineering and Science (IConTES),Antalya (Turkey)
- 2019
-
2019
Kinetic Parameters and sintering Mechanism of Algeria Clay Powder Using Differential Thermal Analysis (DTA) and Dilatometry (Dl)
International Conference on Technology, Engineering and Science (IConTES) October 26-29, 2019 – Antalya/TURKEY Abstract Book 13 KINETIC PARAMETERS AND SINTERING MECHANISM OF ALGERIA CLAY POWDER USING DIFFERENTIAL THERMALANALYSIS AND DILATOMETRY Ouali Ameur * University of M'sila, Algeria Sahnoune Foudil University of M'sila, Algeria Heraiz Menad University of M'sila, Algeria The clay is one of the most used natural materials in the ceramic industry with very different applications such as pottery, tiles, cement and brick. The latter is used as building materials because of their excellent thermal and mechanical properties. In the present study, the mechanism and kinetic parameters of transformation Phases of Algerian clay from Al-maathed was studied by Differential Thermal Analysis (DTA) and dilatometry analysis (DL) technique. Phases present and their transformations, the activation energy, and the sintering mechanism were evaluated through x-ray diffraction, differential thermal analysis (DTA), thermogravimetric (TG) and dilatometer. The activation energy calculated by non-isothermal (Kissinger method) treatments, for the Phases transformation are 1000 kJ/mol and for the sintering is 460 KJ/mol. The value of the Avrami exponent, n, is determined from the shape of the crystallization exothermic and is related to Tm and the m parameter (a numerical factor which depends on the dimensionality of crystal growth) obtained by Matusita method were both about 1,2 sintering clay. These values indicating that bulk nucleation is dominant in sintering clay by three-dimensional with polyhedron-like morphology controlled by interface reaction. Keywords: ceramics, thermal analysis, powders, clay
Citation
Ameur Ouali , Foudil SAHNOUNE , MENAD Heraiz , ,(2019), Kinetic Parameters and sintering Mechanism of Algeria Clay Powder Using Differential Thermal Analysis (DTA) and Dilatometry (Dl),International Conference on Technology, Engineering and Science (IConTES) Antalya, Turkey,Antalya, Turkey
- 2019
-
2019
Kinetic Parameters and sintering Mechanism of Algeria Clay Powder Using Differential Thermal Analysis (DTA) and Dilatometry (Dl)
International Conference on Technology, Engineering and Science (IConTES) October 26-29, 2019 – Antalya/TURKEY Abstract Book 13 KINETIC PARAMETERS AND SINTERING MECHANISM OF ALGERIA CLAY POWDER USING DIFFERENTIAL THERMALANALYSIS AND DILATOMETRY Ouali Ameur * University of M'sila, Algeria Sahnoune Foudil University of M'sila, Algeria Heraiz Menad University of M'sila, Algeria The clay is one of the most used natural materials in the ceramic industry with very different applications such as pottery, tiles, cement and brick. The latter is used as building materials because of their excellent thermal and mechanical properties. In the present study, the mechanism and kinetic parameters of transformation Phases of Algerian clay from Al-maathed was studied by Differential Thermal Analysis (DTA) and dilatometry analysis (DL) technique. Phases present and their transformations, the activation energy, and the sintering mechanism were evaluated through x-ray diffraction, differential thermal analysis (DTA), thermogravimetric (TG) and dilatometer. The activation energy calculated by non-isothermal (Kissinger method) treatments, for the Phases transformation are 1000 kJ/mol and for the sintering is 460 KJ/mol. The value of the Avrami exponent, n, is determined from the shape of the crystallization exothermic and is related to Tm and the m parameter (a numerical factor which depends on the dimensionality of crystal growth) obtained by Matusita method were both about 1,2 sintering clay. These values indicating that bulk nucleation is dominant in sintering clay by three-dimensional with polyhedron-like morphology controlled by interface reaction. Keywords: ceramics, thermal analysis, powders, clay
Citation
Ameur Ouali , Foudil SAHNOUNE , MENAD Heraiz , ,(2019), Kinetic Parameters and sintering Mechanism of Algeria Clay Powder Using Differential Thermal Analysis (DTA) and Dilatometry (Dl),International Conference on Technology, Engineering and Science (IConTES) Antalya, Turkey,Antalya, Turkey
- 2019
-
2019
Effects of silicon carbide additives on synthesis of porous mullite
Mullite porous ceramics were prepared by an in situ reaction join technique using a Kaolinite, aluminum oxide, and silicon carbide as raw materials. The raw materials were mixed in different ratios. From homogeneous mixture, standard samples were prepared via uniaxial compaction. The Kaolinite was a reaction sintered with Alumina and SiC, a in the temperature range 1200–1600 °C for 2 h. Dilatometry, X-ray diffraction (XRD), and scanning electron microscopy (SEM) complementary techniques were used to characterize the prepared materials. The effect of SiC content on the microstructure, densification, and hardness of the samples was investigated. All prepared samples showed the same phase transitions that ended at 1500 ° C with the formation of mullite in kaolinitealumina mixture and kaolinite-alumina -SiC mixture. The kaolinite experiences transformation into mullite and excess silica, the mullite and the silica phases contents increased with increased sintering temperature. It is also commonly observed that the SiC content reduces the density gradually while increasing the sintering temperature . The sintering percentage of samples sintered decreased with an increase in SiC content. The pores in the mullite ceramics were formed by accumulating particles of SiC. The surface of SiC was oxidized to SiO2 at high temperature. With further increasing the temperature, SiO2 reacted with Al2O3 to form mullite. SiC particles were bonded by the oxidationderived SiO2 and mullite. The results show that when 2 wt % SiC and 14% SiC were added, the open porosity of the porous mullite were 3.1 % and 16.8 %, respectively. The Vicker’s microhardness of mullite was measured under an applied indentation load of 500 g, showed values of hardness decreased with an increase in SiC content.
Citation
MENAD Heraiz , ABDELMADJID Boussendel , Foudil SAHNOUNE , ,(2019), Effects of silicon carbide additives on synthesis of porous mullite,International Conference on Technology, Engineering and Science (IConTES),October 26-29, 2019 in Antalya/ Turkey
- 2018
-
2018
Phase formation and crystallization kinetics in cordierite ceramics prepared from kaolinite and magnesia
In this work, Algerian kaolinite, a naturally occurring clay mineral, was used as low-cost precursor for the synthesis of cordierite ceramics. The kaolinite was mixed with synthetic magnesia, and the mixture was ball milled and reaction sintered in the temperature range 900–1350 °C for 2 h. Thermogravimetry (TG), differential thermal analysis (DTA), dilatometry, high temperature x-ray powder diffraction (XRD), Raman spectroscopy, and scanning electron microscopy (SEM) complementary techniques were used to analyze sintering behavior, characterize phase transformations, and investigate crystallization kinetics. Milling the kaolinite and magnesia mixture for 10 h yielded a homogenous powder, decreased the average particle size, and improved the roundness of particles. Different crystalline phases were present in the samples sintered in the temperature range 900–1150 °C, the cordierite phase started to crystallize at 1200 °C, and the formation of highly dense cordierite (99%) was complete at 1250 °C. The activation energy values for cordierite formation calculated using Kissinger, Boswell, and Ozawa methods were found to be equal to 577, 589, and 573 kJ/mol, respectively. The kinetic parameters n and m had values close to 2. Bulk nucleation with a constant number of nuclei was the dominant mechanism in cordierite crystallization, followed by two-dimensional growth controlled by interface reaction. Keywords A. Solid state reactionD. ClaysD. CordieriteD. MgO
Citation
Foudil SAHNOUNE , MENAD Heraiz , Djida REDAOUI, Nouari Saheb, , (2018), Phase formation and crystallization kinetics in cordierite ceramics prepared from kaolinite and magnesia, Ceramics International, Vol:44, Issue:4, pages:3649-3657, ELSEVIER SCI LTD
- 2018
-
2018
Thermal Dehydroxylation Kinetics of Algerian Halloysite by Differential Thermal Analysis
In this study, the dehydroxylation of Algerian halloysite (DD1) was studied using differential thermal analysis. Measurements of samples were performed between room temperature and 1400 °C, at different heating rates of 10, 20, 30, 40 and 50 °C min-1. The activation energy calculated from isothermal (using Johnson-Mehl-Avrami and Ligero methods) and non-isothermal treatments (using Kissinger-Akahira-Sunose) were 135 kJ/mol and 153 kJ/mol, respectively. The Avrami parameter obtained by method of Ligero and the m parameter (a numerical factor) obtained by Matusita method were 1.55 and 1.59, respectively. The results show that bulk nucleation was dominant in halloysite transformation, followed by three-dimensional growth of meta-halloysite. This growth is controlled by diffusion from a constant number of nuclei. The frequency factor calculated by the isothermal treatment is equal to 4.16 *106 s-1. DOI: 10.12693/APhysPolA.134.79 PACS/topics: differential thermal analysis (DTA)
Citation
MENAD Heraiz , Foudil SAHNOUNE , Ameur Ouali , Amina Raghdi, Djida Redaoui, , (2018), Thermal Dehydroxylation Kinetics of Algerian Halloysite by Differential Thermal Analysis, ACTA PHYSICA POLONICA A, Vol:134, Issue:1, pages:79-81, POLISH ACAD SCIENCES INST PHYSICS
- 2018
-
2018
Effect of B2O3 on Phase Transformation of Cordierite Synthesized from Algerian Kaolin and MgO
In this study mixtures of Algerian kaolinite (kaolin Tamazarte (KT) and kaolin of Djebel Debbagh (DD1)) with magnesium oxide with and without boron oxide B2O3 additive were investigated in order to obtain a dense cordierite also called indialite. The addition of B2O3 has promoted the formation of α-cordierite either by crystallization of the residual glass or by transformation of µ-cordierite. The differential thermal analysis and thermogravimetric analysis experiments were carried out on ceramic samples in the temperature range between room temperature and 1300°C at different heating rates. In order to determine the phases and their transformations in cordierite powders treated at different temperatures between 900 and 1300 °C with steps of 50 °C the X-ray diffraction analysis was used. DOI: 10.12693/APhysPolA.134.75 PACS/topics: ceramics, thermal expansion, differential thermal analysis, reactions
Citation
Foudil SAHNOUNE , MENAD Heraiz , Djida Redaoui, , (2018), Effect of B2O3 on Phase Transformation of Cordierite Synthesized from Algerian Kaolin and MgO, ACTA PHYSICA POLONICA A, Vol:134, Issue:1, pages:75-78, POLISH ACAD SCIENCES INST PHYSICS
- 2018
-
2018
Thermal Transformation of Fired Clay Ceramics by Dilatometric Analysis
Algerian clay from Al-maathed was studied by dilatometric analysis technique. The activation energies measured by both isothermal (Johnson-Mehl-Avrami theory using Ligero method) and non-isothermal (Kissinger methods) treatments were 980 and 1050 kJmol-1, respectively. The growth morphology parameters n (Avrami parameter) which indicates the crystallization mode were found to be almost equal to 1.5, using non-isothermal treatments, and equal to 1.4 using isothermal (Ligero method). The numerical factor which depends on the dimensionality of crystal growth m obtained by Matusita et al. equation was 1.50. Analysis of the results shows that the bulk nucleation is the dominant mechanism in -quartz crystallization and the three-dimensional growth of -quartz crystals with polyhedron-like morphology occurs, controlled by diffusion from a constant number of nuclei. DOI: 10.12693/APhysPolA.134.86 PACS/topics: ceramics, thermal analysis, powders
Citation
Foudil SAHNOUNE , MENAD Heraiz , L. BEDDIAR, Djida REDAOUI, , (2018), Thermal Transformation of Fired Clay Ceramics by Dilatometric Analysis, ACTA PHYSICA POLONICA A, Vol:134, Issue:1, pages:86-89, POLISH ACAD SCIENCES INST PHYSICS
- 2018
-
2018
Investigation of the thermal behavior and decomposition kinetics of halloysite
In the present work, the thermal decomposition kinetics of Algerian halloysite (DD1) was examined under isothermal and non- isothermal conditions by thermogravimetric (TGA). Thermogravimetric TGA and differential thermal analysis (DTA) experiments were realized out between room temperature and 1400 °C, at different heating rates from 15 to 50 °C/min. The activation energies of this thermal decomposition process were calculated by DTG from isothermal treatments using Johnson-Mehl-Avrami (JMA) and Ligero methods and by non-isothermal treatments using Ozawa, Boswell and Kissinger methods, were 150 and 177 kJ/mol, respectively. The Avrami parameter of growth morphology n (indicating the crystallization mode) obtained by ligero method and the m parameter (a numerical factor) obtained by Matusita method was 1.55 and 1.59 respectively. The results showed that bulk nucleation was dominant in halloysite transformation followed by three-dimensional growth of meta-halloysite this growth is controlled by diffusion from a constant number of nuclei. The frequency factor calculated by the isothermal treatment is equal to 2×107s−1 Keywords : halloysite , decomposition process, dtg, activation energy, growth morphology
Citation
MENAD Heraiz , Foudil SAHNOUNE , Ameur Ouali , ,(2018), Investigation of the thermal behavior and decomposition kinetics of halloysite,International conference on Technology, Engineering and Sciences (IConTES),Antalya – Turkey
- 2018
-
2018
Dilatometric and DSC study of the kinetics of discontinuous precipitation of Ag2Al intermetallic in Al –10% Ag alloy
The kinetics of discontinuous precipitation of Ag2 Al intermetallic in alloy Al – 10% Ag is studied after 10-h holding in vacuum at 530°C and subsequent water quenching. The DSC and dilatometric curves are plotted for heating rates ranging from 5 to 20 Kmin. The activation energy of formation of the Ag2 Al -phase is computed from the DSC data with the help of the Boswell equation and by the Kissinger method.
Citation
Foudil SAHNOUNE , MENAD Heraiz , H. Belhouchet, M. Fatmi, N. Saheb, , (2018), Dilatometric and DSC study of the kinetics of discontinuous precipitation of Ag2Al intermetallic in Al –10% Ag alloy, Metal Science and Heat Treatment, Vol:60, Issue:3, pages:185-189, SPRINGER
- 2017
-
2017
Mullite-zirconia composites prepared from halloysite reaction sintered with boehmite and zirconia
In this study, Algerian halloysite, a naturally occurring clay mineral, was used as low-cost precursor for the production of mullite-zirconia composites. The halloysite was reaction sintered with boehmite and zirconia in the temperature range 1250–1650 °C for 2 h. Differential thermal analysis (DTA), thermogravimetry (TG), dilatometry, high temperature X-ray diffraction (XRD), and scanning electron microscopy (SEM) complementary techniques were used to characterize the prepared materials. The influence of ZrO2 content on the microstructure, densification, hardness, and coefficient of linear thermal expansion of the composites was investigated. Algerian halloysite was found suitable material for the synthesis of low-cost mullite based composites. All prepared samples exhibited same phase transformations that ended at 1550 °C with the formation of monolithic mullite in halloysite-boehmite mixture and mullite-zirconia composites in halloysiteboehmite-zirconia mixture. The composite materials showed higher values of hardness and coefficient of linear thermal expansion compared with monolithic mullite. The composite containing 10% ZrO2 possessed the highest hardness value of 13.5 GPa. The composite containing 30% ZrO2 possessed the lowest value of linear coefficient of thermal expansion of 7.5725 ×10−6 K−1 between 200 and 1500 °C. Keywords: Clay minerals Halloysite Gibbsite Boehmite Reaction sintering Mullite-zirconia composites
Citation
MENAD Heraiz , Foudil SAHNOUNE , Amina Raghdi,, Nouari Saheb, , (2017), Mullite-zirconia composites prepared from halloysite reaction sintered with boehmite and zirconia, Applied Clay Science, Vol:146, Issue:, pages:70–80, ELSEVIER SCIENCE BV
- 2017
-
2017
Thermal decomposition kinetics of Algerian Tamazarte kaolinite by thermogravimetric analysis
The decomposition kinetics of Algerian Tamazarte kaolinite (TK) was investigated using thermogravimetric analysis (TG). Differential thermal analysis (DTA) and TG experiments were carried out between room temperature and 1400 °C, at different heating rates from 10 to 40 °C/min. The activation energies, measured by DTG from isothermal treatments using Johnson−Mehl−Avrami (JMA) and Ligero methods and by non-isothermal treatments using Ozawa, Boswell and Kissinger methods, were around 151 and 144 kJ/mol, respectively. The Avrami parameter of growth morphology (indicating the crystallization mode) was found to be around 1.57 using non-isothermal treatments; however, when using isothermal treatments it is found to be equal to 1.35. The numerical factor, which depends on the dimensionality of crystal growth, is found to be 1.53 using Matusita equation. The frequency factor calculated by the isothermal treatment is equal to 1.55×107 s−1. The results show that the bulk nucleation is followed by three-dimensional growth of metakaolinite with polyhedron-like morphology controlled by diffusion from a constant number of nuclei. Key words: kaolinite; decomposition kinetics; Avrami parameter; activation energy; growth morphology
Citation
Foudil SAHNOUNE , MENAD Heraiz , D. REDAOUI, , (2017), Thermal decomposition kinetics of Algerian Tamazarte kaolinite by thermogravimetric analysis, Transactions of Nonferrous Metals Society of China, Vol:27, Issue:8, pages:1849−1855, ELSEVIER SCIENCE BV
- 2017
-
2017
The Kinetics of Spinel Formation of Algerian Halloysite by Differential Thermal Analysis
The kinetics of spinel (Al–Si) crystallization from Algerian halloysite (DD1) was investigated using differential thermal analysis. Experiments were carried out on samples between room temperature and 1400 °C with constant heating rate from 2 to 20 °C min-1. The activation energies measured from isothermal and non-isothermal treatments were 1054.85 and 1140 kJ mol-1, respectively, for the spinel (Al–Si) formation. The Avrami constant n obtained by the Ligero method and the m parameter obtained by the Matusita method were about 2 for spinel crystallization. This value indicates that the crystallization mechanism of Al–Si spinel phase proceeds by bulk nucleation of the phase formation with a constant number of nuclei and that the three-dimensional growth of crystals is controlled by diffusion. DOI: 10.12693/APhysPolA.131.139 PACS/topics: 81.70.Pg, 81.20.Ev, 82.20.–w
Citation
MENAD Heraiz , Foudil SAHNOUNE , Ameur Ouali , A .Raghdi, , (2017), The Kinetics of Spinel Formation of Algerian Halloysite by Differential Thermal Analysis, ACTA PHYSICA POLONICA A, Vol:131, Issue:1, pages:139-142, POLISH ACAD SCIENCES INST PHYSICS
- 2017
-
2017
Preparation and Phase Transformation of Mullite-Zirconia from Boehmite and Algerian Halloysite
In this work, mullite-zirconia composite were fabricated by reaction sintering of Algerian halloysite Al2Si2O5(OH)4, boehmite Al(OOH), and zirconia (ZrO2) powder using conventional heating. The appropriate amount of the three raw powders was ball milled for 5 h and sintered between 1250 and 1650 °C for 2 h. A scanning electron microscope was used to characterize the microstructure of sintered samples. A dilatometer and X-ray diffractometer were used to analyze the formation and transformation of phases. It is found that for the addition of zirconia up to 20wt.% the zirconia phase retains its tetragonal structure. The formation of primary mullite in all samples was complete at 1220 °C. The cristobalite started to form at 1350 °C, and disappeared at 1500 °C in the samples of mullite, and at 1450 °C when ZrO2 was added. The zircon compound ZrSiO4 started to form at 1350 °C and completely disappeared at 1550 °C. The increase in ZrO2 ratio promoted the formation of grains with a spherical shape. DOI: 10.12693/APhysPolA.131.136 PACS/topics: 81.05.Mh, 68.37.hk, 07.85.Nc
Citation
MENAD Heraiz , Foudil SAHNOUNE , Ameur Ouali , Amina Raghdi, Djida Redaoui, , (2017), Preparation and Phase Transformation of Mullite-Zirconia from Boehmite and Algerian Halloysite, ACTA PHYSICA POLONICA A, Vol:131, Issue:1, pages:136-138, POLISH ACAD SCIENCES INST PHYSICS
- 2017
-
2017
Elaboration and Characterization of Bioceramics from Natural Phosphate
The aim of this work is the substitution of the bovine bone by the natural phosphate from Djebelel-Onk (Tébessa, East of Algeria). We prepared two composites (bone/Al2O3 and natural phosphate/Al2O3) by reaction sintering. Different experimental techniques, including density, porosity, X-rays diffraction, and SEM techniques, were used to analyze the formation and transformation of phases at different temperatures. From the X-ray diffraction patterns, we put in evidence the formation of several phases. Through these results, we lighted the possibility of preparing bioceramics from natural phosphate (bone and natural phosphate). The presence of the different materials was confirmed by the micrographic observations. DOI: 10.12693/APhysPolA.131.117 PACS/topics: 81.05.Je, 81.05.Mh, 87.85.jf
Citation
Hocine BELHOUCHET , Foudil SAHNOUNE , MENAD Heraiz , , (2017), Elaboration and Characterization of Bioceramics from Natural Phosphate, ACTA PHYSICA POLONICA A, Vol:131, Issue:1, pages:117-119, POLISH ACAD SCIENCES INST PHYSICS
- 2017
-
2017
Thermal Decomposition Kinetics of Algerian Tamazarte Kaolin by Differential Thermal Analysis (DTA)
investigated by using differential thermal analysis. The differential thermal analysis and the thermogravimetric experiments were carried out on samples between room temperature and 1400 °C, at heating rates from 10 to 40 °Cmin-1. X-ray diffraction was used to identify the phases present in the samples. The activation energies measured by differential thermal analysis from isothermal and non-isothermal treatments using Johnson-Mehl- Avrami methods with Ligero approximation and using Kissinger-Akahira-Sunose methods were around 145 and 159 kJ/mol, respectively. The Avrami parameter n which indicates the growth morphology parameters were found to be almost equal to 1.60, using non-isothermal treatments, and equal to 1.47 using isothermal treatments. The numerical factor which depends on the dimensionality of crystal growth was 1.60 obtained using Matusita et al. equation. The frequency factor calculated using the isothermal treatment is equal to 1.173 * 107 s-1. Analysis of the results have shown that bulk nucleation was dominant during kaolinite transformation, followed by three-dimensional growth of meta-kaolinite with polyhedron-like morphology, controlled by diffusion from a constant number of nuclei. DOI: 10.12693/APhysPolA.131.382 PACS/topics: 82.30.Lp, 81.05.Je, 81.05.Mh, 81.70.Pg
Citation
Foudil SAHNOUNE , MENAD Heraiz , Hocine BELHOUCHET , Nouari Saheb, Djida Redaoui,, , (2017), Thermal Decomposition Kinetics of Algerian Tamazarte Kaolin by Differential Thermal Analysis (DTA), ACTA PHYSICA POLONICA A, Vol:131, Issue:3, pages:382-385, POLISH ACAD SCIENCES INST PHYSICS
- 2017
-
2017
Phase Transformation and Sintering of Algeria Clay Powder
Clay is one of the most used natural materials in the ceramic industry with various applications such as pottery, tiles, cement and bricks. The latter are used as a building material because of their excellent thermal and mechanical properties. In the present study, Algerian clay from Al-maathed area, M’sila district, was used to prepare bricks. The chemical composition of the clay was determined using X-ray fluorescence. Firing of clay was carried out in the temperature range 20–1000 °C, at different heating rates. The present phases and their transformations, the activation energy, and the sintering mechanism were evaluated using X-ray diffraction, differential thermal analysis, thermogravimetric analysis and dilatometry. The activation energy for the sintering mechanism obtained from non-isothermal treatments is 420 kJ/mol. The value of the Avrami exponent, n, is determined from the shape of the crystallization exothermic dependence. It is related to m parameter (a numerical factor which depends on the dimensionality of crystal growth) obtained by Matusita method. Both of which are about 1.2 for clay sintering. These values indicate that bulk nucleation is dominant in clay sintering by three dimensional growth, with polyhedron-like morphology controlled by interface reaction. DOI: 10.12693/APhysPolA.131.566 PACS/topics: 81.05.Mh, 81.70.Pg, 81.30.Mh
Citation
Foudil SAHNOUNE , MENAD Heraiz , Laila Beddiar, Djida Redaoui, , (2017), Phase Transformation and Sintering of Algeria Clay Powder, ACTA PHYSICA POLONICA A, Vol:131, Issue:3, pages:566-568, POLISH ACAD SCIENCES INST PHYSICS
- 2017
-
2017
Mechanism and Kinetic Parameters of the Thermal Decomposition of Gibbsite Al(OH)3 by Thermogravimetric Analysis
In this study, the mechanism and the kinetic parameters of the thermal decomposition of gibbsite Al(OH)3 were studied by differential thermogravimetry technique under non-isothermal conditions, between room temperature and 1200 K at heating rates of 5, 10, 15 and 20 °Cmin-1. The obtained differential thermogravimetry curves show clearly three In this study, the mechanism and kinetic parameters of the thermal decomposition of gibbsite Al(OH)3 was studied by differential thermogravimetry (DTG) technique under non-isothermal conditions, which were carried out on samples between room temperature and 1200K at heating rates of 5, 10, 15 and 20°C min-1. the obtained DTG curves show clearly three distinct peaks: the first peak is due to the partial de-hydroxylation of gibbsite, Among the 32 types of non-isothermal kinetics differential equations, we find that the most suitable mechanism is (A3/2: g(x) = [-ln(1-x)]2/3) or called it Avrami- Erofeev eq. Order=2/3 We find the value of the activation energy (EA) and pre-exponential factor (K0) correspond to are 157 KJ/mol and 7,58×1015 s-1 respectively. The second peak correspond to the decomposition of gibbsite to boehmite, we get that the most suitable mechanism is controlled by the rate of second-order reaction (F2: g(x) = (1-x)-1-1) under applied condition. We also find the value of the activation energy (EA) and pre-exponential factor (K0) correspond to 243 kJ mol−1 and 3,73 x 1022 s−1, respectively. The third peak is due to the transformation of boehmite to alumina. However the mechanism for such transformation is better described by the one-and-half rate order reaction (F3/2: g(x) = (1-x)-1/2-1). In addition, the values of EA and K0 were determined around 296 kJ mol−1 and 1,82x1019 s−1, respectively. The results of differential thermogravimetry (DTG) were supplemented by differential thermal analysis (DTA), X-ray powder diffraction (XRPD) analysis for samples of gibbsite treated at different temperatures between 200 and 1200°C with steps of 200°C. Keywords: gibbsite, boehmite, decomposition kinetics, TG/DTG, Activation energy
Citation
Foudil SAHNOUNE , MENAD Heraiz , Djida Redaoui, Amina Raghdi, , (2017), Mechanism and Kinetic Parameters of the Thermal Decomposition of Gibbsite Al(OH)3 by Thermogravimetric Analysis, ACTA PHYSICA POLONICA A, Vol:131, Issue:3, pages:562-565, POLISH ACAD SCIENCES INST PHYSICS
- 2017
-
2017
Effect of CaO Addition on the Sintering Behaviour of Anorthite Formed from Kaolin and CaO
Thermal reactions and sintering behavior of kaolin DD3 (Djebel Debbagh, Algeria) and CaO mixtures to obtain dense anorthite ceramics were investigated. Mixed powders were uniaxially pressed and fired between 850 and 1150 °C. Firing the pressed specimens yielded a dense anorthite ceramics. The sintered density increased with increase of CaO content and reached the maximum value of 2.57 g/cm3 for the composition containing 10 wt% CaO and fired at 1150 °C. Their coefficient of linear expansion of the sintered samples at 1100 °C decreases with the addition of CaO. X-ray diffraction experiments carried out on the samples containing varied amount of CaO and fired at the temperatures higher than 1000 °C for 2 h showed the presence of only anorthite phase. DOI: 10.12693/APhysPolA.131.159 PACS/topics: 81.05.Je, 81.05.Mh, 81.20.Ev, 81.70.Pg, 65.40.De, 65.60.+a
Citation
Ameur Ouali , Foudil SAHNOUNE , MENAD Heraiz , , (2017), Effect of CaO Addition on the Sintering Behaviour of Anorthite Formed from Kaolin and CaO, ACTA PHYSICA POLONICA A, Vol:131, Issue:1, pages:159-161, POLISH ACAD SCIENCES INST PHYSICS
- 2016
-
2016
Kinetics of mullite formation from kaolinite and Boehmite
The excellent electrical, thermal and mechanical properties, and good stability of mullitemade it a candidate material to produce ceramics for advanced applications such as catalyst supports, filters, optical devices, heat exchangers and electronic packaging. In thiswork, monolithic mullite was synthesized from kaolinite and boehmite and the kinetics of its formation was investigated using dilamometry. The activation energies for the transformation of kaolinite to metakaolinite, transformation of metakaolinite to spinel, and transformation of the kaolinite-boehmite powder to mullite were evaluated through non-isothermal treatment following the Kissinger and Ozawa equations. The growth morphology parameters were evaluated for the transformation of metakaolinite to spinel, and for the transformation of the spinel to mullite.
Citation
MENAD Heraiz , Foudil SAHNOUNE , Ameur Ouali , M. Hrairi,, N. Saheb, , (2016), Kinetics of mullite formation from kaolinite and Boehmite, Molecular Crystals and Liquid Crystals, Vol:628, Issue:1, pages:55-64, TAYLOR & FRANCIS LTD
- 2016
-
2016
Sinterability and Thermal Properties of Cordierite Ceramics Prepared from Algerian Kaolinite and Magnesium Hydroxide
In this paper, we investigate the effect of MgO additions on the formation and densification behaviour of the cordierite obtained from some mixtures of Algerian kaolin and magnesium hydroxide. The sintering properties of these compositions have been evaluated by X-ray diffraction and bulk density. XRD analysis revealed that themajor phase of the synthesized ceramics was cordierite along with a trace of spinel. Firing the pressed specimens at 1400°C for 1 hour yielded a dense cordierite ceramics with a relative density higher than 96%, a negligible open porosity and a lower linear thermal expansion coefficient of 2.73×10−6 K−1 between 200 and 800°C. Cordierite due to its very low coefficient of thermal expansion is considered as promising candidate for advanced applications.
Citation
Ameur Ouali , Foudil SAHNOUNE , MENAD Heraiz , Belhouchet, , (2016), Sinterability and Thermal Properties of Cordierite Ceramics Prepared from Algerian Kaolinite and Magnesium Hydroxide, Molecular Crystals and Liquid Crystals, Vol:628, Issue:1, pages:65-71, TAYLOR & FRANCIS LTD