The polymer plays the role of binder in ceramic green body that is why it must be removed from the element to achieve fully densified, polycrystalline ceramic body [ 18 ]. The polymer is removed by its thermaldecomposition during debinding process
Similar to the clay minerals [ 29 , 30 ], thermaldecomposition of asbestos minerals generally takes place according to three stages [ 7 , 31 ]. The first is associated with the loss of adsorbed water. The next step is connected to the removal of
Thermaldecomposition and oxidation studies and the decomposition and oxidation products analysis
The dense (99.8%), polycrystalline samples of CoSb 3 were thermally treated under vacuum of 10 −3 Pa in sealed
decompose, while at higher temperatures, the peroxyester fragments break down [ 5 ]. N 2 is released in the first stage and CO 2 in the second (Scheme 2 ).
Thermaldecomposition pathways of azo
transition metal ions with organic ligands, it is customary to investigate the thermaldecomposition of these complexes so as to obtain useful data on the metal–ligand bonds [ 2 – 4 ] and stability trends. The thermal investigations on some derivatives of
investigated complexes. Table 5 presents thermaldecomposition results of Y(III) and La(III) compounds in air and only La(III) complexes in argon atmosphere.
TG and DTG curves of thermaldecomposition of
This work is a continuation of our previous studies on synthesis, properties, and thermaldecomposition of metal complexes with bipyridine isomers and carboxylates [ 1 – 7 ]. Lanthanide compounds are curious for
The aim of our work was to prepare the complexes of lanthanides (III) from La to Lu and Y with 2,3-naphthalenedicarboxylic acid as solids and to study their thermaldecomposition in air as well as the influence of the metal on the properties of the
of such compounds should be possible simple and low-priced. The obtained compounds should be also thermal stable what is associated with conditions of medicine production processes. In addition, the thermaldecomposition of magnesium coordination
, such as waste, is thermallydecomposed at ordinary and reasonable temperature in the range of 150 and 900 °C, in the absence of oxygen and air ( Huang et al., 2016 ; Kumar et al., 2020 ; Ozbay et al., 2001 ; Zabaniotou, 2010 ). As mentioned in Fig