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Adriana P.
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100 professional prompts ready to copy and paste into ChatGPT, Claude or Gemini.
This masterful collection of footwear engineering redefines industrial footwear standards through the use of advanced artificial intelligence. Designed specifically for technicians, pattern makers and production managers, each prompt acts as an expert consultant capable of solving complex challenges in joining parts, optimizing materials and structural cutting perfection. It is the definitive tool for those seeking to increase technical quality and operational efficiency in high-end workshops.
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Prompt
your instruction
AI
100 resources included
Acts as a footwear technical engineer specialized in the 'Internal Structural Reinforcements' section for the 'Shoe Sideboards' collection. Your objective is to design an exhaustive technical protocol for the implementation of stabilization systems on the sides of the upper of a shoe of type [Footwear Type: e.g. Oxford, Hiking Boot, Luxury Sneaker], using state-of-the-art materials to ensure that the silhouette does not collapse during prolonged use. Analyzes and describes the physical-chemical properties of the recommended reinforcement material (either [Material: e.g. Resin-impregnated non-woven textile, Low-temperature Thermoplastic, Recovered Leather]) and how it should interact with the outer material of [Outer Material: e.g. Box-Calf Leather, Nubuck, Synthetic Mesh]. You must detail the process of roughing the edges of the reinforcement to avoid visible marks on the outside ('ghost' effect) and specify the exact distance in millimeters that must be kept with respect to the climbing line and the mounting margin. Develop an operational flow chart for the dressing area, explaining the sequence of gluing or sewing the side reinforcement. It includes critical quality control parameters such as the adhesive reactivation temperature [Temperature in °C], the pressure of the pneumatic press in [Bars/PSI] and the setting time required before moving to the next production phase. Particularly consider the metatarsal flexion points to ensure that stabilization does not compromise the ergonomics of the end user. Finally, propose a fatigue test method to validate the durability of this internal structure. Evaluates how humidity and body heat affect the stiffness of the stabilized lateral in a cycle of [Number of Cycles] push-ups. The final result must be a production technical sheet that serves as a gold standard for the manufacturing of the line [Name of Line/Project] under the quality regulations of [Country/Region]. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
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Result
He acts as an expert consultant in biomechanical engineering and technical footwear modeling specialized in last geometry. Your mission is to carry out a deep technical audit under the concept of 'Tread axis verification' for the [NOMBRE_DEL_MODELO] project. The analysis should focus on how the construction of the shoe and the structure of the last interact to ensure that the user's center of gravity is correctly aligned with the longitudinal axis of the sole of the foot. To begin this analysis, consider that the last has a heel height of [ALTURA_TALON_MM] and is designed for a shoe type [TIPO_CALZADO]. Evaluates the trajectory of the stride axis from the center of the calcaneus to the projection of the second metatarsal. You must determine if the volume of the last in the inner arch and the distribution of the masses in the toe area allow a fluid step transition (heel-to-toe transition) without generating excessive rotation moments or instability in the mid-stance phase. Analyze in detail the impact of the dressing material [MATERIAL_APARADO] in this verification. If the material has an elasticity greater than [PORCENTAJE_ELASTICIDAD]%, calculate how this could displace the real axis of the step with respect to the theoretical axis of the last during the take-off phase. It is crucial that you identify if there is a risk of supination or pronation induced by a last design that does not respect the functional anatomy in relation to the main flexion point. Generate a structured technical report that includes: 1. Diagnosis of the current shaft alignment. 2. Identification of critical pressure points due to poor adjustment of the last volume. 3. Proposals for correction in the pattern of the apparatus to stabilize the footprint. 4. Specific recommendations for modifying the geometry of the last in the metatarsal area to optimize ergonomics and the thermal and mechanical comfort of the end user. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
He acts as a senior Industrial Engineer specialized in lean manufacturing (Lean Manufacturing) and optimization of highly complex footwear plants. Your goal is to perform extremely precise stitching line balancing for the model [Shoe model or specific reference] in order to eliminate bottlenecks and maximize productivity per man-hour. First, I need you to process the following technical information of the process: the standard time (SAM) per operation for the tasks of [List of key operations: lowering, gluing of reinforcements, slipper sewing, etc.], the times measured in seconds: [Timed time data per station] and the current number of available operators which is [Number of personnel online]. You must consider specific machinery restrictions such as [Type of machines: pole, flat, zigzag] and the multifunctional abilities of the equipment. Calculates the Takt Time necessary to meet a demand of [Production goal of pairs per shift] considering an effective working day of [Net work hours] and a supplement factor (fatigue and personal needs) of [Supplement percentage, e.g. 10%]. Identify with mathematical precision which workstation represents the current bottleneck based on installed capacity versus required demand. Generates a proposal for redistribution of workloads (Line Balancing) using the Positional Weighting or Heuristic method, grouping the operations in such a way that the cycle time of each station is as close as possible to the Takt Time without exceeding it. You should propose the ideal number of workstations and suggest whether it is necessary to implement parallel stations for longer operations such as [Name of slowest operation]. Finally, present the results in a professional table format that includes: Station Name, Assigned Operations, Total Station Time, Idle Time, and Saturation Percent. It concludes with the calculation of the resulting Overall Line Efficiency (LE) and the projected labor cost per pair produced under this new balancing scheme. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
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It does the job, though I expected a bit more. Some prompts are great and others more generic. Works if you customize it.
It does the job, though I expected a bit more. Some prompts are great and others more generic. Acceptable.
Decent for the price. Some prompts are great and others more generic. Works if you customize it.
Good value for money. The prompts are useful and practical. Came close to a five.