Das farinhadas à produção para o mercado: a dinâmica da atividade mandioqueira no agreste potiguar.

El Agreste Potiguar es el territorio de Rio Grande do Norte en que más se produce yuca. La formación de ese territorio asociase a la ganadería y al cultivo de algodón y de cultivos de autoconsumo, de entre los cuales, la yuca. En lo concerniente, específicamente al cultivo de la yuca, esa planta siempre ha sido sumamente importante para la subsistencia de los agrestinos , sobre todo, de los pobres. Hasta la década de 1980, la yuca era cultivada en pequeñas parcelas de tierra y era destinada a la fabricación de harina, que juntamente con el frijol, era la base de la alimentación de los trabajadores agrestinos. Además, era bastante útil para la producción de ración para el ganado. A partir de esa década, la actividad mandioquera (cultivo de la yuca con la transformación de ésta en harina y en otros derivados) desencadenada en el Agreste Potiguar empieza a pasar por un proceso de modernización, siendo implementadas transformaciones técnicas y en las relaciones de trabajo, bajo la lógica capitalista. Dentro de esa lógica, el cultivo de la yuca pasa a ser hecho con el uso de máquinas y de abonos químicos; la transformación en harina es actualmente realizada en manufacturas y en industrias de harina, que vienen siendo, cada vez más, marcadas por instrumentos técnicos movidos a electricidad, disminuyendo la necesidad de mano de obra; y la yuca no es más cultivada por los productores con el objetivo primordial de garantizar su subsistencia, pero sí con el de atender a la demanda por materia prima de las manufacturas y de las industrias de harina. De este modo, el objetivo del trabajo es comprender la dinámica de la actividad mandioquera en el Agreste Potiguar, considerando el uso pasado y actual del territorio, la modernización de esa actividad y su contribución al desarrollo del territorio en cuestión. Como procedimientos metodológicos, adoptamos la realización de investigaciones bibliográficas, empíricas (entrevistas y conversaciones) y el análisis de datos secundarios. Finalmente, sabiéndose que el proceso de modernización estudiado sigue la lógica capitalista, concluimos el trabajo afirmando que la modernización de la actividad mandioquera no viene contribuyendo al desarrollo territorial del Agreste Potiguar.

Desenvolvimento e caracterização de nanoemulsões cosméticas contendo extrato de Opuntia ficus-indica L. Mill e avaliação in vivo da eficácia hidratante

Nanoemulsions are emulsified systems, characterized for reduced droplet size (50- 500nm), which the main characteristic are kinect stability and thermodynamic instability. These are promising systems on cosmetic area due to their droplet size that provide different advantages when compared to conventional systems, among others, larger surface area and better permeability. The Opuntia ficus-indica (L.) Mill is a plant cultivated on Caatinga Brazilian biome, which has great socioeconomic importance to region. This plant shows carbohydrates utilized for cosmetic industry as moisturizing active in their chemical composition. The aim of study was to develop, characterize, evaluate stability and moisturizing efficacy of cosmetic nanoemulsions added to Opuntia ficus-indica (L.) Mill extract. Nanoemulsions preparation was made using a low energy method. Different nanoemulsions were formulated varying the ratio of oil, water and surfactant phases beyond xanthan gum (0.5% e 1%) and Opuntia ficus-indica (L.) Mill hydroglycolic extract addition on 1% and 3%. Obtained nanoemulsions were submitted to preliminary and accelerated stability tests. The evaluated parameters monitored were: macroscopic aspect, pH value, droplet size, zeta potential and polydispersion index, during 60 days on different temperatures. Stable formulations were submitted to moisturizing efficacy assessment by capacitance and transepidermal water loss methodologies during 5 hours. Stable samples were white and showed homogeneous and fluid aspect, pH value was inside ideal range (4,5-6,0) to topical application and droplet size under 200nm characterizing these system as nanoemulsions. Developed nanoemulsions did not decrease transepidermal water loss, however increased the water content on stratum corneum, highlighting the nanoemulsions containing 0.5% of xanthan gum and 1% of hydroglycolic extract. This work presents cosmetic moisturizing nanoemulsions composed to vegetal raw material from Brazilian Caatinga with potential to be used on cosmetic area.

Obtenção de placas cerâmico a partir de formulações de massas triaxiais de resíduos de caulim, chamote de telha e cinza vegetal

The production of red ceramic is an industrial activity that causes an intense impact. The manufacture of its products considerably increases the demand for natural resources, mainly with the extraction of raw material. The ceramic material produced generates waste, such as ash firewood and chamote. The residue from the beneficiation of kaolin is deposited in a poor, degrades the environment and contaminate water sources and soil, constituting in this manner, ecological disasters. The main objective of this work is to develop the formulation of a ceramic product consisting solely of industrial solid wastes, from ceramic tiles, (chamote) residue of kaolin and ash firewood. It is assumed that this product made in the laboratory can be used in coatings, wall and floor. The aim is to facilitate the replacement of the raw material of original composition of a ceramic body, for waste, while the process of production equal to the conventionally used, so that the properties of the product are reproduced. This work is characterized waste as its chemical composition, analysis of particle size, X-ray diffraction and thermal behavior. Several formulations were studied. The mass of waste was prepared by dry process, pressed to 25 MPa, and then burned in muffle type oven to 850, 950, 1050 and 1150 °C. The results showed that it is technically possible to produce porous tiles only with waste. It was found that the formulations of bodies play a key role in the properties of the final product, as well as the sintering temperature and heating rates. RN in the waste of kaolin is estimated at 15,000 t/month, about 3,000 gray t/month and chamote with 10 million pieces/month damaged. The presence of carbonates of calcium and magnesium at 1050 ° C results in an appropriate porosity and mechanical strength. The formulation M3JE, composed of 69% waste of kaolin, 7.7% and 23.3% of chamote of gray, became suitable for porous materials with the strength and absorption within the level of national and international standards