PARTÍCULAS MAGNÉTICAS NIVELII COMPLETO

Uno de los vídeos mas completos en partículas magnetizables

Te felicito por la gran generosidad. Al tomar tu tiempo para instruirnos. Saludos!!

Estoy haciendo el curso y la verdad este video es más llevadero para entender.. gracias por el aporte!

Muchas gracias,todos sus videos estan siendo compartidos con mis etudiantes en el curso END en Univalle.Saludes.

Muy bueno, lo felicito José
. ABRAZO!!!

Gracias amigo por este curso, ya me suscribi

Muchas gracias por impartir tus conocimientos por este medio y me ha sido muy útil tu enseñanza

Ola consulta con este video o esta información se puede dar los exámenes finales de curso de particulas magneticas si alguien sabe esperando respuesta gracias

Exelente, gracias

Meus parabéns !

Gracias por el contenido

Demasiado bueno el curso 👌👌 excelente explicación

Quiero agradecer y felicitar al Instructor por este video, he bajado todas sus presentaciones y/o explicaciones siéndonos de una guía muy completa y sólida, por otro lado me gustaría saber como puedo acceder a la parte de B de este curso, MUCHAS GRACIAS DESDE CHILE.

Una pregunta la únion de soldadura es considerado como indicación relevante o irrelevante . Gracias

Saludos, exelente!! Y por ahi tendra la parte B😁

Hola buenas tardes. Pablo consulta. Como saber que tipo de isntrumento de particulas tengo que aplicar para realizar el ensayo.
Vi que existen varios equipos yo solo conosco el yugo.

Excelente!

Una pregunta, en una pieza magnetizada a partir de cuantos gaus se afecta el arco de la soldadura?

buenisimo

excelente

muy buen video quiero los examenes como los podria adquirir

Buenas Noches Estimado, me gustaría adquirir el manual desde ya muchas gracias!

Buenos día compañero José Luis ante todo reciba un cordial saludo, quiera agradecer por tan excelente material audiovisual y a su vez quisiera saber si tiene disponible dentro de su biblioteca material disponible sobre un curso UT nivel II. Muchas gracias dejo mi mail por si puede ayudarme, feliz día

Excelente el curso , donde puedo acceder a la parte B ?

Alguién tiene test de exámen? Gracias.

Ya que cuando se realiza la reparación de una grieta en una pieza de acero m marca el contorno de soldadura y m están rechazando la pieza.

Cómo puede tener tu correo ya que m interesa mucho tus cursos

Les agradecería su respuesta

🎯 Key points for quick navigation:
01:32 *🧲 Basics of Magnetic Particle Method*
- Magnetic particles are used for detecting surface and near-surface discontinuities in ferromagnetic materials.
- The method is crucial for detecting superficial and near-surface discontinuities.
- Understanding the concept of magnetic field leakage and its relation to discontinuity detection.
03:24 *🔍 Magnetic Domains and Saturation*
- Ferromagnetic materials consist of magnetic domains that align when the material is magnetized.
- Saturation occurs when all magnetic domains are aligned, and no increase in magnetic field can induce more alignment.
- Knowledge of magnetic permeability is essential in understanding material magnetization.
07:11 *🧲 Magnetic Poles and Magnetic Field Characteristics*
- Magnetic poles have distinct characteristics in the flow of magnetic field lines.
- Understanding the flow of magnetic lines from south to north and their behavior in different material sections.
- Learning about the impact of material changes and the necessity for multiple magnetization angles.
12:01 *🌡️ Advantages & Disadvantages of Magnetic Particle Testing*
- Magnetic particle testing is an easy, practical, and cost-effective method for flaw detection.
- The need for cleanliness before inspection and its practicality compared to other testing methods.
- Limitations and challenges of magnetic particle testing, including material restrictions and safety measures.
21:15 *🧲 Relationship between current and magnetic field*
- Understanding the relationship between current (i) and magnetic field (b) helps determine magnetic properties.
- The hysteresis curve reflects the magnetic properties of materials.
- Analyzing hysteresis curves helps determine material characteristics for testing.
23:06 *🔗 Understanding hysteresis curve morphology*
- Exploring the hysteresis curve stages from demagnetization to magnetic saturation.
- Differentiating magnetically saturated points and residual magnetism.
- Applying coercive force to remove residual magnetism in materials.
30:39 *💡 Classification of materials based on magnetic permeability*
- Differentiating between ferromagnetic, paramagnetic, and diamagnetic materials.
- Characteristics and examples of each type of magnetic material.
- Understanding how magnetic permeability affects material properties.
35:23 *🧲 Classification of magnetic materials*
- Identifying characteristics of ferromagnetic, paramagnetic, and diamagnetic materials.
- Examples and behaviors of each type of magnetic material.
- Explaining why certain materials are suitable or unsuitable for magnetic particle testing.
42:39 *🧲 Electromagnetic Yoke Technique*
- Electromagnetic yoke technique for magnetic particle inspection,
- Enables inspection of medium to large-sized parts by inducing a longitudinal magnetic field between its poles.
46:57 *🔍 Magnetization Direct Techniques*
- Different techniques for direct magnetization,
- Inspection of welds, forgings, and castings with the contact tip technique.
49:09 *🌀 Longitudinal Magnetization Technique*
- Applying a longitudinal magnetic field with coils or cables,
- Ideal for detecting transverse discontinuities in components.
50:34 *💡 Conductor Central Magnetization Technique*
- Magnetization of hollow cylindrical parts using a secondary conductor,
- Effective for hollow components like pipes, rings, and bearings.
01:04:03 *🧲 Detection of Surface Discontinuities with AC Current*
- AC current is ideal for detecting surface discontinuities like fatigue cracks.
- The sinusoidal waveform of AC current creates pulsations that aid in particle mobility.
- It is recommended for inspecting components in service for surface imperfections.
01:06:35 *🔌 Obtaining DC Current from AC*
- Rectification of AC current using diodes yields pulsed DC current.
- Full-wave rectification with a bridge rectifier generates unidirectional DC current.
- This method is useful for creating a pulsating magnetic field with maximum sensitivity for subsurface discontinuities.
01:08:36 *🔋 Characteristics of Full-Wave Rectified DC*
- Full-wave rectified DC provides high penetration and low particle mobility.
- Ideal for residual magnetization in detecting subsurface discontinuities.
- Selection of magnetizing current type should align with the type of imperfection being sought.
01:12:06 *🌌 Classification of Magnetic Particles*
- Magnetic particles can be dry or suspended in a liquid.
- They must possess specific characteristics like high permeability and low reactivity.
- Dry magnetic particles are suitable for detecting subsurface discontinuities with good mobility.
01:13:08 *💦 Characteristics of Dry Magnetic Particles*
- Dry particles should be used as supplied or by spraying, not for overhead applications.
- They lack effectiveness in detecting fine discontinuities and require particles to remain on the surface for a few seconds.
- Dry particles are not recommended for vertical or overhead surface inspection.
01:16:08 *🌊 Features of Wet Magnetic Particles*
- Suspended in water or light petroleum, wet particles are ideal for fine discontinuity detection.
- They need proper suspension control and may be supplied in aerosol cans.
- Wet particles require specific suspension vehicles like petroleum distillates or water.
01:24:00 *🌈 Particles Presentation*
- Explanation of different colors of magnetic particles available commercially.
- Importance of using appropriate contrast background for visible magnetic particles.
- Differences between visible, fluorescent, and dual-colored particles for high-temperature applications.
01:26:53 *🔍 Types of Magnetic Particles*
- Requirements for using visible magnetic particles with the necessary lighting intensity.
- Application considerations for fluorescent magnetic particles.
- Effects of different light wavelengths on the detection capabilities of fluorescent particles.
01:29:22 *🔄 Operational Sequences*
- Explanation of continuous operation sequence for dry and wet magnetic particles.
- Benefits of the residual operation sequence in certain high-magnetism scenarios.
- Factors to consider when choosing between continuous and residual operational sequences.
01:32:47 *📋 Inspection Procedure Guidelines*
- Importance of following written inspection procedures to ensure consistency.
- Evaluation criteria for the functionality and sensitivity of inspection systems.
- Recommendations for regular assessment of inspection system capabilities using known-discontinuity samples.
01:37:21 *🧲 Testing Tools*
- Usage guidelines for known-discontinuity samples like test rings and central conductor techniques.
- Purpose and application of Hall effect meters for measuring magnetic force.
- Advantages and limitations of traditional magnetic field indicators like the Pastel Type.
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